Cerulean warbler (Dendroica cerulea): COSEWIC assessment and status report 2010

Photo of a Cerulean Warbler Dendroica cerulean perched on a branch.

Endangered – 2010

Table of Contents

Document Information

List of Figures

List of Tables

Document Information

COSEWIC – Committee on the Status of Endangered Wildlife in Canada

COSEWIC status reports are working documents used in assigning the status of wildlife species suspected of being at risk. This report may be cited as follows:

COSEWIC. 2010. COSEWIC assessment and status report on the Cerulean WarblerDendroica cerulea in Canada. Committee on the Status of Endangered Wildlife in Canada. Ottawa. x + 40 pp.

Previous report(s):

COSEWIC. 2003. COSEWIC assessment and update status report on the Cerulean Warbler Dendroica cerulea in Canada. Committee on the Status of Endangered Wildlife in Canada. Ottawa. vii + 25 pp.

McCracken, J.D. 1993. COSEWIC status report on the Cerulean Warbler Dendroica cerulea in Canada. Committee on the Status of Endangered Wildlife in Canada. Ottawa. 34 pp.

Production note:
COSEWIC would like to acknowledge Carl Savignac for writing the status report on the Cerulean Warbler, Dendroica cerulea, in Canada, prepared under contract with Environment Canada, overseen and edited by Jon McCracken, Co-chair, COSEWIC Birds Species Specialist Subcommittee.

For additional copies contact:

COSEWIC Secretariat
c/o Canadian Wildlife Service
Environment Canada
Ottawa, ON
K1A 0H3

Tel.: 819-953-3215
Fax: 819-994-3684

Cover illustration/photo:

Cerulean Warbler -- Photo courtesy: Carl Savignac.

© Her Majesty the Queen in Right of Canada, 2011.
Catalogue No. CW69-14/326-2011E-PDF
ISBN 978-1-100-18551-4


Assessment Summary

Assessment Summary – November 2010

Common name
Cerulean Warbler

Scientific name
Dendroica cerulea


Reason for designation
This sky-blue forest songbird is at the northern edge of its breeding range in Canada. Relying on relatively large tracts of undisturbed hardwood forest, it has rather specialized habitat requirements on both its breeding and wintering grounds. Its population has been experiencing significant declines across most of its range since the 1960s and the present Canadian population is estimated at about only 1000 individuals. These declines are believed to be driven mostly by loss and degradation of this species’ wintering habitat, which is restricted to montane forests in the northern Andes of South America. It is also threatened by habitat loss and degradation on its breeding grounds. There is evidence for continuing declines. Also, new information on demographics suggests that chances for population rescue in Canada are lower than previously thought.

Ontario, Quebec

Status history
Designated Special Concern in April 1993. Status re-examined and confirmed in May 2003. Status re-examined and designated Endangered in November 2010.

Executive Summary

Cerulean Warbler
Dendroica cerulea

Description and significance

The Cerulean Warbler (Dendroica cerulea) is a small wood-warbler. The adult male is sky blue above and white below, while the female is blue-green above and whitish below. Both sexes have two prominent white wing-bars and white tail spots. The species has generated considerable public, scientific and conservation interest recently due to its beauty, habitat specificity, and international conservation concerns. It is considered an umbrella species that reflects the maintenance of populations of other bird species that require mature deciduous forest habitats.


This species breeds in the deciduous forests of eastern North America but has a patchy distribution. The Canadian breeding range consists of two main geographic clusters in southwestern and southeastern Ontario, plus a small number of breeding individuals in southwestern Quebec. It winters in a relatively narrow elevational zone in the eastern Andes of South America, from Venezuela to northwestern Bolivia.


On the breeding grounds, Cerulean Warblers are associated with large tracts of mature deciduous forest with tall trees and an open understory. They are found in both wet bottomland forests and upland areas. At a finer spatial scale, canopy configuration (e.g., foliage stratification, gap distribution, tree species distribution) are predictors of habitat suitability. On the wintering grounds in the Andes, they occupy a rather narrow elevational range (roughly 500-2000 m above sea level). Here, they are found principally in mature and relatively undisturbed humid forests, but will also use rustic shade-coffee, cardamom and cacao plantations that retain native trees.


Female Cerulean Warblers lay 2-5 eggs per clutch. Only a single brood is produced per year. Generally 2-3 fledglings are produced per breeding pair and about 75% of pairs have successful nests. The species appears to have low between-year survivorship, likely due to a combination of mortality experienced during long-distance migration and low survivorship on the wintering grounds. While demographic studies across the species’ breeding range have shown that nest success and fecundity in eastern Ontario are among the highest in North America, it appears that immigration from the U.S. is required to maintain the Canadian population.

Population size and trends

The Canadian population is estimated to be 433-543 pairs (866-1086 mature individuals), most of which are found in the Frontenac Axis region of southeastern Ontario. The most recent global population estimate is 625,000 mature individuals. Hence, Canada supports roughly 0.2% of the global population.

The Cerulean Warbler’s North American population experienced an average decline of about 2.9% per year from 1966 to 2006. In Ontario, recent breeding bird atlas work suggests a non-significant decline of 30% province-wide over a 20-year period (1981-85 and 2001-2005), which is equivalent to a decline of at least 16% over 10 years. More severe declines have occurred in the province’s Carolinian region (at least 24% over 10 years). In Quebec, Cerulean Warblers have disappeared from five of six known sites occupied since the 1960s. Overall, the Canadian population has declined by at least 16% over the past 10 years. The potential for rescue is believed to be low, owing to ongoing population declines in the U.S.

Threats and limiting factors

Habitat loss and degradation on the wintering grounds are believed to be the primary threats. Massive deforestation of primary montane forests of the northern Andes has occurred in recent decades, and this threat continues. The major threats on the breeding grounds are also related to habitat loss and degradation caused by some forms of intensive logging and the conversion of mature forest to agricultural lands. Habitat fragmentation, which increases nest parasitism by cowbirds and the risk of nest depredation, also seems to be an important threat. Other threats include predicted increases in catastrophic weather events (e.g., severe ice-storms and hurricanes) on the breeding grounds and during migration, decreasing habitat quality due to exotic forest pathogens and forest insect outbreaks, and increasing risks of collision with tall structures during migration.

Protection, status and ranks

In Canada, the Cerulean Warbler was assessed by COSEWIC in May 2003 as  Special Concern and is currently listed under Schedule 1 of the Canadian Species at Risk Act. Its nests and eggs are also protected under the Migratory Birds Convention Act, 1994. In Ontario, it is classified as Special Concern and receives consideration under the Endangered Species Act, 2007. In Quebec, effective October 2009, the species is listed as Threatened under the Act Respecting Threatened or Vulnerable Species. In the United States, it is of Conservation Concern and is under consideration for listing as Threatened under the U.S. Endangered Species Act. Globally, the species is considered vulnerable by the International Union for the Conservation of Nature. NatureServe ranks it as Vulnerable in Canada and Ontario. In Quebec, it is ranked as Severely Imperiled.

Dendroica cerulea

Cerulean WarblerParuline azurée

Range of Occurrence in Canada: Ontario, Quebec

Demographic Information

Generation time (average age of parents in the population) 2 yrs
Is there an [observed, inferred, or projected] continuing decline in number of mature individuals? Yes
Estimated percent of continuing decline in total number of mature individuals within [5 years or 2 generations] Unknown
Estimated percent reduction in total number of mature individuals over the last 10 years.
- based upon statistically non-significant decline of 16% in probability of occurrence in 10 x 10 km atlas squares in Ontario over 10 years. This is judged to be a minimum estimate (see Population Sizes and Trends).
[Projected or suspected] percent [reduction or increase] in total number of mature individuals over the next [10 years, or 3 generations]. Unknown, but declines are likely to continue
[Observed, estimated, inferred, or suspected] percent [reduction or increase] in total number of mature individuals over any [10 years, or 3 generations] period, over a time period including both the past and the future. Unknown
Are the causes of the decline clearly reversible and understood and ceased? No
Are there extreme fluctuations in number of mature individuals? No

Extent and Occupancy Information

Estimated extent of occurrence
- based on a minimum convex polygon of the species’ range map shown in Figure 2
134,308 km²
Index of area of occupancy (IAO)
- estimate based on a 2 x 2 km grid
500-2000 km²
Is the total population severely fragmented? No
Number of “locations”
- insufficient information is available to estimate number of locations in relation to threats
Is there an observed, inferred, or projected continuing decline in extent of occurrence? No; apparently stable
Is there an observed continuing decline in index of area of occupancy?
- based on a statistically non-significant 30% reduction in probability of occupancy in atlas squares in Ontario over 20 years, and reduced occupancy rates in Quebec
Is there an [observed, inferred, or projected] continuing decline in number of populations? Not applicable
Is there an [observed, inferred, or projected] continuing decline in number of locations? Unknown
Is there an observed, inferred, or projected continuing decline in area, extent and quality of habitat?
- yes in southwestern Ontario, Quebec and on wintering grounds; probably more stable breeding habitat currently in southeastern Ontario.
Are there extreme fluctuations in number of populations? Not applicable
Are there extreme fluctuations in number of locations? No
Are there extreme fluctuations in extent of occurrence? No
Are there extreme fluctuations in index of area of occupancy? No

Number of Mature Individuals (in each population)

Population N Mature Individuals
Total (based on estimate of 433-543 territories) 866-1086 
Number of populations (based on the genetic study by Veit et al. 2005) 1

Quantitative Analysis

Probability of extinction in the wild is at least [20% within 20 years or 5 generations, or 10% within 100 years]. Not done

Threats (actual or imminent, to populations or habitats)


Rescue Effect (immigration from an outside source)

Status of outside population(s)?
U.S.: Conservation Concern (candidate for Threatened status)
- significant average annual decline of 2.89% per year (1966-2007)
Is immigration known or possible? Yes
Would immigrants be adapted to survive in Canada? Yes
Is there sufficient habitat for immigrants in Canada? Likely, but mostly in southeastern Ontario
Is rescue from outside populations likely? Yes, but increasingly tempered by declines in the U.S.

Current Status

COSEWIC : Endangered (November 2010)

Status and Reasons for Designation

Alpha-numeric code:
Reasons for designation:
This sky-blue forest songbird is at the northern edge of its breeding range in Canada. Relying on relatively large tracts of undisturbed hardwood forest, it has rather specialized habitat requirements on both its breeding and wintering grounds. Its population has been experiencing significant declines across most of its range since the 1960s and the present Canadian population is estimated at about only 1000 individuals. These declines are believed to be driven mostly by loss and degradation of this species’ wintering habitat, which is restricted to montane forests in the northern Andes of South America. It is also threatened by habitat loss and degradation on its breeding grounds. There is evidence for continuing declines. Also, new information on demographics suggests that chances for population rescue in Canada are lower than previously thought. 

Applicability of Criteria

Criterion A (Decline in Total Number of Mature Individuals): Does not meet criterion; declines do not exceed thresholds.
Criterion B (Small Distribution Range and Decline or Fluctuation): Does not meet criterion. The index of area of occupancy falls within the 2000 km²  threshold for Threatened, but other necessary elements are not met for this criterion.
Criterion C (Small and Declining Number of Mature Individuals): Meets Threatened C1 because the population is less than 10,000 mature individuals and there has been an estimated continuing decline of more than 10% (but probably less than 20%) over the past 10 years or 3 generations. Meets Endangered C2a(ii) because there are fewer than 2500 individuals with more than 95% in a single population.
Criterion D (Very Small or Restricted Total Population): Likely meets Threatened D1, but there is some question about the precision of current population estimates.
Criterion E (Quantitative Analysis): Not applicable


This is an update of a previous status report (COSEWIC 2003). An early reassessment of this species was warranted because considerable recent advances have been made in the knowledge of Cerulean Warbler biology. New information has been gathered from studies on demographics, dispersal and adult survival (e.g., Jones et al. 2004a; Barg et al. 2006a,b; Buehler et al. 2008), regional patterns of population genetic structure (e.g., Veit et al. 2005), information on distribution, population size and trends in Canada (e.g., Francis 2007), and aspects of the species’ wintering ecology (e.g., Calderón-Franco 2006, 2007; Moreno et al. 2006; Bakermans et al. 2009). In addition, an international Cerulean Warbler working group was established in 2001 to study and conserve this species across its breeding and wintering ranges (Hamel 2004).

The Committee on the Status of Endangered Wildlife in Canada (COSEWIC) was created in 1977 as a result of a recommendation at the Federal-Provincial Wildlife Conference held in 1976. It arose from the need for a single, official, scientifically sound, national listing of wildlife species at risk. In 1978, COSEWIC designated its first species and produced its first list of Canadian species at risk. Species designated at meetings of the full committee are added to the list. On June 5, 2003, the Species at Risk Act (SARA) was proclaimed. SARA establishes COSEWIC as an advisory body ensuring that species will continue to be assessed under a rigorous and independent scientific process.

The Committee on the Status of Endangered Wildlife in Canada (COSEWIC) determines the national status of wild species, subspecies, varieties, and nationally significant populations that are considered to be at risk in Canada. Designations are made on all native species for the following taxonomic groups: mammals, birds, reptiles, amphibians, fish, lepidopterans, molluscs, vascular plants, lichens, and mosses.

COSEWIC Membership
COSEWIC comprises representatives from each provincial and territorial government wildlife agency, four federal agencies (Canadian Wildlife Service, Parks Canada Agency, Department of Fisheries and Oceans, and the Federal Biosystematic Partnership), three nonjurisdictional members and the co-chairs of the species specialist groups. The committee meets to consider status reports on candidate species.

Definitions (2010)

Wildlife Species
A species, subspecies, variety, or geographically or genetically distinct population of animal, plant or other organism, other than a bacterium or virus, that is wild by nature and is either native to Canada or has extended its range into Canada without human intervention and has been present in Canada for at least 50 years.

Extinct (X)
A wildlife species that no longer exists.

Extirpated (XT)
A wildlife species no longer existing in the wild in Canada, but occurring elsewhere.

Endangered (E)
A wildlife species facing imminent extirpation or extinction.

Threatened (T)
A wildlife species likely to become endangered if limiting factors are not reversed.

Special Concern (SC)*
A wildlife species that may become a threatened or an endangered species because of a combination of biological characteristics and identified threats.

Not at Risk (NAR)**
A wildlife species that has been evaluated and found to be not at risk of extinction given the current circumstances.

Data Deficient (DD)***
A category that applies when the available information is insufficient (a) to resolve a species’ eligibility for assessment or (b) to permit an assessment of the species’ risk of extinction.

* Formerly described as “Vulnerable” from 1990 to 1999, or “Rare” prior to 1990.
** Formerly described as “Not In Any Category”, or “No Designation Required.”
*** Formerly described as “Indeterminate” from 1994 to 1999 or “ISIBD” (insufficient scientific information on which to base a designation) prior to 1994.

The Canadian Wildlife Service, Environment Canada, provides full administrative and financial support to the COSEWIC Secretariat.

COSEWIC Status Report on the Cerulean Warbler Dendroica cerulea in Canada – 2010

Wildlife Species Description and Significance

Name and classification

The common name of Dendroica cerulea Wilson (1810) is Cerulean Warbler in English and Paruline azurée in French. The taxonomy of the species is as follows:

Class:  Aves
Order:  Passeriformes
Family: Parulidae
Genus:  Dendroica
Species:  Dendroica cerulea

Morphological description

The Cerulean Warbler is a small (8-10 g) wood-warbler. The adult male is sky blue above, white below, and has a blue-black band across its throat (Hamel 2000a). The adult female is blue-green above, whitish below (often with a yellowish wash) and has a yellow-white eyebrow or supercilium. Both sexes have two prominent white wing-bars and white tail spots. Young individuals (second-year birds) are similar to adults, but duller overall. There is little consensus, however, on what plumage colour characteristics best distinguish female age classes (Dunn and Garrett 1997; Hamel 2000a).

Confusion with other species is unlikely for adults of either sex. Immatures in their first fall can look superficially similar to young female Blackburnian Warblers (Dendroica fusca), but young Cerulean Warblers tend to be yellow-white below, while Blackburnian Warblers tend to be buffy. In addition, Blackburnian Warblers have pale streaking on the sides of the back, which is not seen in Cerulean Warblers (COSEWIC 2003).

Population spatial structure and variability

Veit et al. (2005) assayed variation in five microsatellite loci and a 366 base-pair fragment of the mitochondrial control region among 154 Cerulean Warblers sampled from five populations throughout the breeding range (southeastern Ontario, southwestern Ontario, Illinois, Arkansas and Tennessee). No evidence of population genetic structure was found, supporting the existence of a single genetic management unit (Veit et al. 2005).  Because inter-regional breeding dispersal of adults appears to be fairly commonplace (Veit et al. 2005; Girvan et al. 2007), all individuals in Canada are considered to belong to one population.

Designatable units

No subspecies have been recognized for the Cerulean Warbler (Hamel 2000a). Genetic interchange occurs across the species’ range (Veit et al. 2005). Similarly, in a study of stable isotopes, Girvan et al. (2007) found that long-distance dispersal of Cerulean Warblers was a fairly common occurrence. Hence, this report deals with a single designatable unit.

Special significance

The Cerulean Warbler has generated considerable public, scientific and conservation interest lately due to its appeal, habitat specificity and population declines. It can be considered an effective umbrella species for the maintenance of populations of other species that require mature deciduous forest habitats (Jones et al. 2004b). In Ontario, management of forested habitats for Cerulean Warblers will likely have a positive effect on other species of interest (McCracken 1993). These include Acadian Flycatcher (Empidonax virescens), Louisiana Waterthrush (Seiurus motacilla), and Hooded Warbler (Wilsonia citrina; COSEWIC 2003).

No recent information is apparently available from Aboriginal Traditional Knowledge sources for this species in Canada.


Global range


The majority of the Cerulean Warbler’s population occurs in the Central Hardwoods Forest Region (Hamel and Rosenberg 2007). The species breeds mainly from north-central Minnesota, northern Wisconsin, the central Lower Peninsula of Michigan, southern Ontario, southern Quebec, New York, and western Vermont, south through Massachusetts, Connecticut, New Jersey, Pennsylvania, northern Delaware, West Virginia, North Carolina, and northern Georgia, and west to central Arkansas, Missouri and Iowa. Local breeding has also been recorded in northern Mississippi, and eastern Oklahoma, Kansas and Nebraska (Dunn and Garret 1997; Hamel 2000a; Rosenberg et al. 2000; Figure 1). The Cerulean Warbler is not uniformly distributed throughout its range, with notable concentrations in the Cumberland Mountains of Tennessee, the Erie-Ontario Plain of the Great Lakes Plain Ecozone including the Montezuma Wetlands complex in New York, southern Illinois, southeastern Ontario, and West Virginia (COSEWIC 2003; Rosenberg 2008).


The Cerulean Warbler spends the winter primarily in a relatively narrow elevational zone (500-2000 m) on the eastern slopes of the Andes – from Colombia and Venezuela south through Ecuador to Peru and northern Bolivia (Ridgley and Tudor 1989; Robbins et al. 1992; American Ornithologists’ Union 1998; Colorado and Cuadros 2006; Herzog et al. 2009; NatureServe 2009; Figure 1). According to Colorado and Cuadros (2006), it is more abundant on the eastern side of the Andes than on the western and central parts. About 95% of wintering records are from Colombia, Venezuela and Ecuador (U.S. Fish and Wilidlife Service 2006).

Figure 1.  Global range of the Cerulean Warbler (from Ridgely et al. 2003). Data provided by NatureServe in collaboration with: Robert Ridgely, James Zook, The Nature Conservancy - Migratory Bird Program, Conservation International - CABS, World Wildlife Fund – U.S., and Environment Canada - WILDSPACE.

Map of the global range of the Cerulean Warbler.

Canadian range

The Canadian population is restricted to the Carolinian Forest zone and the southern part of the Great Lakes-St. Lawrence Forest zone (Francis 2007). No noticeable changes have been detected in the overall extent of its Canadian range since the last status report (COSEWIC 2003). Despite some local extirpations that have occurred since the first breeding bird atlas was undertaken from 1981 to 1985, Ontario still holds the two main geographic clusters (representing ³ 95% of the Canadian population) – one in the Carolinian region, and the other extending from southeastern Georgian Bay along the Precambrian-Paleozoic interface east to the Frontenac Axis (Francis 2007). There are also a small number of breeding pairs in southwestern Quebec (C. Savignac, unpubl. data), especially south of Montérégie and in the Outaouais region, where the most northerly breeding record exists for the species in North America according to the Centre de données sur le patrimoine naturel du Québec (CDPNQ 2009).

In southeastern Ontario, the species was known as a breeder in the early 1900s (Broley 1929). Beginning sometime around the mid-1900s, it is thought that Cerulean Warbler populations began to expand into parts of the northeastern U.S., southern Ontario and southwestern Quebec (Ouellet 1974; Weir 1989; Bannon and Robert 1995; Sauer et al. 2003), likely in response to the maturation of second-growth forests. Evidence since the early 1980s, however, shows that any earlier range expansion has largely ceased (Bannon and Robert 1995; Gouvernement du Québec 2005; Francis 2007).

The Canadian range of the Cerulean Warbler roughly corresponds to 4% of the global breeding range (NatureServe 2009). The extent of occurrence in Canada is 134,308 km², as measured by a minimum convex polygon based on the range map shown in Figure 2.

A value for index of area of occupancy (IAO) cannot be calculated with precision based on the data available, but it most likely falls in the range of 500 km² to 2000 km² using the 2 x 2 km grid cell method (A. Filion pers. comm. 2010). The biological area of occupancy is estimated at 3.0-3.8 km², based on an average territory size of 0.7 ha for 433-543 territories in Canada (see Abundance; Barg et al. 2005).

Figure 2.  Current breeding range of the Cerulean Warbler in Canada (based on Cadman et al. 2007 and CDPNQ 2009). Black dots represent 10 x 10 km atlas squares with breeding evidence for the period 2001-2005 in Ontario and for the period 2001-2008 in Quebec.

Map of the current breeding range of the Cerulean Warbler in Canada.


Habitat requirements

Breeding range

Primary breeding habitat for this species is most often described as large, mature deciduous forest, typified by structurally mature hardwood species in mesic or floodplain conditions containing a closed or semi-open canopy (Peck and James 1987; Robbins et al. 1992; Hamel 2000b; Rosenberg et al. 2000; Jones and Robertson 2001; Weakland and Wood 2005; Buehler et al. 2006). In some regions, the distribution of Cerulean Warblers is often bimodal, with birds occurring in riparian bottomland and dry upland forests (ridgetops), but not between (Weakland and Wood 2005; Buehler et al. 2006; Wood et al. 2006; Hamel and Rosenberg 2007). In the Upper Great Lakes Plain, Cerulean Warblers are predominately associated with large, dry, upland forests embedded within a larger matrix of forested wetlands (Thogmartin et al. 2004).

In Canada, habitat requirements are similar to the rest of the species’ range, with birds mostly occupying older deciduous forests (Peck and James 1987; Jones and Robertson 2001; Frontenac Bird Studies, unpubl. data). In Ontario, Cerulean Warblers favour mature deciduous stands dominated by oak-maple, often in association with  swampy bottomlands (Frontenac Bird Studies, unpubl. data; J. McCracken pers. comm. 2010). In Quebec, Cerulean Warblers are similarly found in large, mature deciduous stands, often in bottomland forests such as those found in the Huntington and Philipsburg areas (Bannon and Robert 1995; CDPNQ 2009; SOS-POP 2009), often in the presence of permanent forest creeks, and on southwestern exposed ridges in Gatineau Park (Savignac 2005). 

Cerulean Warblers exhibit strong preferences for certain microhabitats within territories (Robbins et al. 1992; Oliarnyk and Robertson 1996; Jones and Robertson 2001; Weakland and Wood 2005; Wood et al. 2006; Hamel and Rosenberg 2007; Roth and Islam 2007). Territories are usually characterized by well-spaced, large-diameter trees, with tall well-developed canopies; birds tend to avoid areas of dense understory (Hamel 2000a; Jones and Robertson 2001; Robbins et al. 1992; Hamel 2003; Weakland and Wood 2005; Roth and Islam 2007). It appears that canopy configuration showing a heterogeneous forest structure (e.g., foliage stratification, gap distribution, tree species distribution) may be an important predictor of breeding habitat suitability (Barg 2002). Cerulean Warblers seem to concentrate their territorial activities in core areas associated with forest canopy gaps that provide a slightly broken spatial distribution of singing post trees (Peck and James 1987; Barg et al. 2005, 2006a; Wood et al. 2005).

Males are often selective in terms of singing posts, and show a preference for large trees (Robbins et al. 1992; COSEWIC 2003). Because the Cerulean Warbler’s song does not appear to be particularly well suited to transmission in densely forested habitats (Woodward 1995), it is hypothesized that males select core areas that help maximize song propagation through the canopy (Barg 2002). In the Lower Mississippi Alluvial Valley, males predominantly use trees that are dominant or co-dominant in the canopy. These may be any of a wide variety of species, but are most often a shade-intolerant species (Hamel 2003). Individuals spend the majority of their time foraging and singing above the middle of trees, but not right at the top (Robbins et al. 1992). There appears to be no consistent tree species preferred for nesting across the species range (Oliarnyk and Robertson 1996; Hamel 2000a; Jones and Robertson 2001).


During migration along the coast of Central America, Cerulean Warblers mostly use primary forests (also secondary forests and plantations) at a broad elevational range from 200 to 800 m (Ridgely and Gwynne 1989; Stiles and Skutch 1989; Parker 1994; Welton et al. 2007; Caycedo 2009). Little other information is available on stopover habitat (Hamel 2000b).

Wintering grounds

Most Cerulean Warblers winter on the eastern slope of the Andes Mountains of South America primarily at an elevational range corresponding to about 500-2000 m above sea level (Fundación Proaves Colombia 2006; USFWS 2006; Caycedo 2009). They are found in mature and relatively undisturbed humid evergreen forests (Robbins et al. 1992; Jones et al. 2000; Fundación Proaves Colombia 2006; Calderón-Franco 2007; Colorado et al. 2008; Herzog et al. 2009), but will also use secondary forest, as well as rustic shade-coffee, cardamom and cacao plantations that retain native trees such as guamo (Inga sp.) and carbonero (Albizia sp.; Andrade et al. 2006; Jahn and Valenzuela 2006; Herzog et al. 2009).

In Venezuela, density estimates of migrants are 3-14% higher in shade coffee plantations than primary forest sites, even after accounting for differences in detectability (Bakermans et al. 2009). When foraging in plantations, Cerulean Warblers rarely use the coffee trees or cardamom shrubs themselves, and prefer canopy trees – especially guamo (Calderón-Franco 2006). In Colombian shade plantations, other species frequently used for foraging include members of the Melastomataceae, Mango (Mangifera indica), a species of Urticaceae (cf. Boehmeria; Calderón-Franco 2006), Naked Albizia (Albizia carbonaria), and Laurel (Cordia alliodora; Colorado and Cuadros 2006). In secondary forests, Cerulean Warblers have been observed feeding on insects on lianas and vines, as well as in trees such as Monkeypod (Pithecellobium dulce) and guamo (Colorado and Cuadros 2006).  

Habitat trends

Breeding grounds

No information is available on the Cerulean Warbler’s Canadian distribution and abundance at the time of European settlement. It is possible that the species has always been rather rare here, in part owing to climatic constraints. Still, it is assumed that Cerulean Warblers historically suffered from large-scale habitat loss from deforestation in the Great Lakes region (Eagles 1987) and probably along the St. Lawrence Valley in Quebec (Bannon and Robert 1995). In eastern Ontario, 70-80% of the original deciduous forest had been removed by the 1880s, largely through the establishment of European settlers and the logging industry (Keddy 1994; Ontario Ministry of Natural Resources 1997). Similarly, intensive agriculture and urban development have reduced forest cover in southwestern Ontario’s Carolinian zone from over 80% historically to only 11% since European settlement (Ontario Ministry of Natural Resources 2000).   

Over the last century, Cerulean Warblers have benefited from the abandonment of farmland in parts of their Canadian range (Oliarnyk and Robertson 1996). In southeastern Ontario, the resulting increase in average overall forest cover is expected to level out at about 40% of the land area in the foreseeable future (Oliarnyk and Robertson 1996; OMNR 1997), which could ultimately benefit Cerulean Warblers, depending on how forest lands are managed. This forest regrowth parallels what has been observed in parts of the northeastern United States over the last several decades (Askins 1993). However, such increases in forest cover have not been noted across most of southwestern Ontario.  

Wintering grounds

Forests of the northern Andes located between 500 and 2000 m in altitude are among the most threatened forests in the world (Robbins et al. 1992; Henderson et al. 1991; Davis et al. 1997) for agriculture, fuel wood, and the cultivation of illegal drugs (Davis et al. 1997). In Colombia alone, primary montane forest once covered an estimated total area of 930,343 km² (World Press Review 1993; USFWS 2006), of which only 36% is thought to now remain (USFWS 2006). Similar losses have occurred for cloud forests in Ecuador and northern Peru, although habitat there has been lost at a slower rate (Dillon 1994).

The preferred wintering habitats of Cerulean Warblers occur in landscapes that are increasingly exposed to human settlement and agriculture, most notably for the production of coffee, cacao, tea, hill rice, and coca (Robbins et al. 1992). While the Cerulean Warbler does occur in modified forest habitats survival rates in disturbed habitats are largely unknown (Jones et al. 2004a). The only such information presently available comes from a study conducted in shade coffee plantations in Venezuela, which found that monthly survival rates of wintering territorial Cerulean Warblers was high, averaging 0.97 (0.90-0.99; 95% CI; Bakermans et al. 2009).



Cerulean Warblers are capable of breeding when one year old (Hamel 2000a). They are generally monogamous, but polygyny has been documented in about 10% of breeding males in Ontario (Barg et al. 2006b).  

In Ontario, males arrive on nesting territories beginning in the first week of May; females start to follow a week or two later (Oliarnyk and Robertson 1996). Nest building is performed by females over a period of 5-6 days (Oliarnyk and Robertson 1996). One brood is raised per year, although second or third nesting attempts have been recorded after failure of the first nest (Hamel 2000a; Barg et al. 2006b; Rogers 2006). There are no published records of multiple broods (Hamel 2000a).

In Ontario, female Cerulean Warblers typically lay 2-5 eggs per clutch (modal clutch size = 5 eggs, n = 6 nests; Oliarnyk and Robertson 1996). Eggs have been found in Ontario nests from 24 May to 27 June (n = 36 nests; Peck and James 1987). Incubation is performed by the female for 11-12 days. Nestlings typically fledge after 10-11 days, usually by the first week of July (Oliarnyk and Robertson 1996).

Over an 8-year period in eastern Ontario, fecundity varied greatly, averaging 1.9 fledglings per breeding pair (Jones et al. 2004a). Lower fecundity rates are reported for Michigan (1.1 ± 0.2 fledglings per nest; n = 46 nests; Rogers 2006). Elsewhere in the United States, reports of fecundity range from 1.9 fledglings/nest in the Mississippi Valley to 2.5 in the Cumberland Mountains, Tennessee (Buehler et al. 2008).


The longevity record is an 8-year-old male (Jones and Barg, unpubl. data in COSEWIC 2003). Generation time is assumed to be 2 years (Veit et al. 2005).

Using mark-recapture models, Jones et al. (2004a) estimated adult male annual survival probability in eastern Ontario at 0.49 ± 0.05 (SE). No estimates are currently available for females or juveniles.

Jones et al. (2004a) found that average monthly survival rate of adult males during the relatively short 3-month breeding period (0.98 ± 0.01) was significantly greater than that during the longer 9-month period that encompasses migration and winter (0.93 ± 0.01). This indicates that mortality in adult males is nearly 3.5 X higher during migration and winter than during the breeding season. Jones et al. (2004a) suggested that relatively low survival of Cerulean Warblers during migration and winter may reflect the higher physiological stress that the birds face during lengthy migrations and/or a higher degree of habitat degradation/loss on the wintering grounds.

Population dynamics

A recent study among five sites across the species’ breeding range, including  birds in Ontario (1995-2002, n = 179 nests), estimated daily nest survival at 0.965 ± 0.004 (SE), nesting success at 40.4 ± 3.4%, number of fledglings/successful nest at 2.8 ± 0.1 and the fecundity rate (average number of female offspring/year/adult female) at 1.11 (Buehler et al. 2008). Generally, the populations located in more forested landscapes (Ontario and Tennessee) had the highest daily nest survival, nest success and number of fledged young/successful nest compared to populations located farther south in agricultural landscapes in the Mississippi Alluvial Valley, Indiana and Michigan (Buehler et al. 2008).

These demographic models also showed that populations at all five sites studied are declining more (l : 0.665-0.838) than predicted by the survey-wide BBS data for 1995-2005 (l = 0.94), suggesting that BBS had a positive bias (Buehler et al. 2008). According to these models, the eastern Ontario population had the highest population growth rate (l =0.84 ± 0.027) among the five sites studied (Buehler et al. 2008). Despite an apparent stability of this population (as evidenced by low annual variation in number of breeding pairs), it may not be currently reproducing at a high enough rate to accommodate adult mortality (Jones et al. 2004a; Buehler et al. 2008). To achieve population stability, the assumed female survival rates for the Ontario population would need to increase by 11% and >0.5 more female offspring would need to be produced per successful nest (Buehler et al. 2008). According to these authors, the Ontario population appears to be demographically capable of producing stable populations in some years when fecundity is good and when female survival rates reach a minimum of 0.65 (Jones et al. 2004a; Buehler et al. 2008), but this is difficult for a long-distance migrant songbird that apparently experiences high levels of mortality outside the breeding season (Jones et al. 2004a).


Cerulean Warblers are long-distance, nocturnal migrants (Hamel 2000a). The bulk of their migration (both spring and fall) appears to occur along the Mississippi and Ohio River valleys and along the coastal Atlantic states (Hamel 2000a). A possible fall migration route is thought to be southward along the U.S. Atlantic Coast and  Mississippi Valley, overseas across the Gulf of Mexico toward the western tip of Cuba, and offshore along the coast of Central America to the eastern side of Costa Rica and the northeastern coast of South America (Venezuela south to Ecuador; USFWS 2006). Banding, collected specimens, and observation records across South America indicate that the species begins to arrive on its wintering areas in the first week of August and that some individuals may stay as long as the second week of May (USFWS 2006).

In spring, it is suggested that in mid-March, most individuals move northward along the eastern slopes of the Andes to northern Columbia, then fly >1500 km across the western Gulf of Mexico, moving northwest until reaching land somewhere over the coast between Nicaragua and Belize. They continue inland to suitable low montane forest on the Caribbean coast (Parker 1994; Welton et al. 2007). During spring migration, the largest numbers of Cerulean Warblers appear to occur in southern Mexico and central Guatemala (decreasing toward eastern Honduras) at an altitude ranging from 100-1200 m (Caycedo 2009). From the Yucatan Peninsula, it is believed that spring migrants then cross the Gulf of Mexico directly north toward the coast of Arkansas and Louisiana and then move up the Mississippi River valley to their respective breeding sites (USFWS 2006).

Using stable-hydrogen isotopes in feathers, Jones et al. (2008) found that Cerulean Warblers across their breeding range exhibit a strong degree of migratory connectivity with a specific wintering region in South America. They exhibit a parallel migration system, whereby western breeding populations are generally connected to southwestern wintering sites and eastern breeding populations are generally connected to northeastern wintering sites (Jones et al. 2008).

Using stable isotopes, Girvan et al. (2007) found that long-distance breeding dispersal by adult male Cerulean Warblers was a fairly common occurrence, with 20 of 71 (28.2%) individuals originating from a region other than the one in which they were sampled in. This pattern of dispersal was also suggested by a genetic study that appeared to show that some individual males captured at the Queen’s University Biological Station (QUBS) in eastern Ontario were hatched as far away as Illinois and Arkansas (Veit et al. 2005). On the other hand, long-distance natal dispersal of young birds was surprisingly uncommon at the QUBS; only 3 of 32 (9.4%) second-year birds were estimated to have hatched outside their capture region (Girvan et al. 2007).

Diet and foraging behaviour

The Cerulean Warbler is an insectivorous canopy-dweller during the breeding season, mainly consuming Homopterans, Lepidopterans (larvae), Dipterans and Coleopterans (Hamel 2000a). Nestlings and fledglings are fed larval Lepidopterans almost exclusively. No evidence exists to support the conjecture that food availability is limiting in Cerulean Warbler populations (COSEWIC 2003).

In the core of its range in the U.S., the species shows strong preference for foraging in Kingnut Hickory (Carya laciniosa) and Bitternut Hickory (C. cordiformis) and avoids foraging in Red Maple (Acer rubrum; Gabbe et al. 2002).

During migration along the coast of Mexico, Cerulean Warblers forage mainly among mixed groups of passerines (Welton et al. 2007; Herzog et al. 2009). Transient Cerulean Warblers in Central America forage in the mid-canopy layer (Welton et al. 2007).

In winter, they are insectivorous (lepidopteran larvae, spiders, and large flies), but will also feed on nectar (Jones et al. 2000; Calderón-Franco 2006; Colorado and Cuadros 2006; USFWS 2006). Gleaning insects from tree foliage seems to be the principal technique used by wintering birds in shade-coffee plantations in Colombia (Jones et al. 2000; Calderón-Franco 2006; Herzog et al. 2009). In rustic shade-coffee plantations, Cerulean Warblers glean insects from flowers and leaves of native canopy trees, but rarely forage on coffee shrubs (Jones et al. 2000).

Interspecific interactions

During the breeding season, aggressive interactions between Cerulean Warblers and Least Flycatchers (Empidonax minimus), Red-eyed Vireos (Vireo olivaceus), and American Redstarts (Setophaga ruticilla) are common in Ontario and Quebec, but the consequences are unknown (COSEWIC 2003; Savignac 2005). Hands et al. (1989) suggested that Red-eyed Vireos, Northern Parulas (Parula americana), and Yellow-throated Warblers (D. dominica) are possible competitors in the United States. On the non-breeding areas, Cerulean Warblers regularly occur in mixed-species assemblages predominantly composed of resident species, but often including North American migrants such as Bay-breasted Warbler (D. castanea), Black-and-white Warbler (Mniotilta varia), Blackburnian Warbler, Chestnut-sided Warbler (D. pensylvanica), and American Redstart (Jones et al. 2000; Andrade et al. 2006; Fundación Proaves Colombia 2006; Calderón-Franco 2007).  

Hybridization is rare. A hybrid Cerulean Warbler × Black-and-white Warbler was collected in 1954 (Parkes 1978).

Home range and territory

Throughout its breeding range, the Cerulean Warbler exhibits high site fidelity (Jones et al. 2004a; Roth and Islam 2007). It nests generally in loose colonies, likely due to conspecific attraction (Peck and James 1987; Oliarnyk and Robertson 1996; Roth and Islam 2007). Standard territory mapping techniques previously indicated that territory size averaged 1.04 ha ± 0.16 at the QUBS (Oliarnyk and Robertson 1996). More recent estimates of average territory size for this population are 0.70 ha ± 0.16 (range 0.12-2.35 ha, n = 14 males), using the Kernel Density Estimation technique, which may be a more precise approach than previous calculations (Barg et al. 2005).

On the wintering grounds, individuals tend to stay in one locale for the whole season (Colorado and Cuadros 2006; Bakermans et al. 2009). As on the breeding grounds, Cerulean Warblers exhibit high levels of between-year fidelity to particular wintering sites (Bakermans et al. 2009).

Behaviour and adaptability

On the breeding grounds, the Cerulean Warbler appears to be relatively tolerant to modest levels of habitat disturbance, both anthropogenic and natural (Jones et al. 2000; 2001). In eastern Ontario, it breeds successfully in forests managed for the production of maple syrup and for shelterwood silviculture (Oliarnyk 1996; Jones 2000). It occupies forests exposed to group- and single-tree selection cutting in Indiana (Register and Islam 2008), uneven-age regenerated clearcut stands in West Virginia (Wood et al. 2005), and shelterwood cuts with prescribed burning treatments (Stoleson 2004). In Arkansas, Cerulean Warblers responded negatively to standard harvesting prescriptions involving partial cutting (thinning, and regeneration cutting and removal of mature elm trees), but tolerated this type of logging when several shade-tolerant mid-story trees are kept (Hamel et al. 2006).

In a study in eastern Ontario, where the amount of canopy foliage was reduced in the year following a major ice-storm, reproductive output of Cerulean Warblers declined significantly; there was also a significant increase in territory size and a significant shift in nest-site location patterns (Jones et al. 2001). In southern Quebec, ice storms in 1980 and 1998 may have been responsible for the local extirpation of Cerulean Warblers at one of the most important regional populations at Mont-Saint-Hilaire (Bannon and Robert 1995; Morneau 2002). While the species may tolerate habitat disruptions caused by periodic extreme weather events, this likely depends on their frequency, geographic breadth and intensity.

On the wintering grounds, the Cerulean Warbler is mostly associated with primary montane forests in a very narrow elevational zone in the Andes, which makes it particularly vulnerable to conversion to agro-forested landscapes (Robbins et al. 1992). Despite the already high degree of deforestation in this zone, Cerulean Warblers have shown some degree of tolerance for plantations that retain native tree species in the canopy, including rustic shade-coffee, cardamom and cacao plantations (Jones et al. 2000; Herzog et al. 2009). More studies are needed to assess how these surrogate habitats affect winter survival.

A behaviour that renders Cerulean Warblers vulnerable is their long-distance migration, which subjects individuals to high physiological stresses and can expose them to violent weather in the Gulf of Mexico (USFWS 2006). Migration has been implicated as a major cause of mortality for Cerulean Warblers (Jones et al. 2004a) and other wood-warblers (Sillett and Holmes 2002).

Cerulean Warblers may be vulnerable to the impact of climate change, which is expected to cause shifts in plant and insect emergence in temperate latitudes (Miller-Rushing et al. 2008).

Population Sizes and Trends

Sampling effort and methods

Outwardly, the lack of comprehensive survey data from large areas of unprotected private lands might suggest that the species is present in greater numbers than presently known. However, the Cerulean Warbler is quite habitat-specific. Its preferred habitat (relatively large tracts of undisturbed, mature deciduous forest) is known to be rare across its Canadian breeding range, especially on private lands that are typically subject to forest harvest regimes that target removal of all or most mature trees.

North American Breeding Bird Survey (BBS)

The BBS is a program that surveys North American breeding bird populations (Sauer et al. 2008). Breeding bird abundance data are collected by volunteers along roadsides at 50, 400-m radius stops spaced at 0.8 km intervals along permanent 39.2 km routes across the U.S. and southern Canada (Downes and Collins 2008). In Canada, the surveys are generally conducted in June, coinciding with the peak breeding period of most bird species, including Cerulean Warbler. Surveys start a half-hour before sunrise and last 4.5 hours (3-minute point counts at each station). 

The BBS is not particularly well suited for monitoring rare species such as Cerulean Warblers because: 1) roadside sampling does not reflect the entire landscape and only covers a limited portion of the kinds of forested habitats favoured by this species (Link and Sauer 2002; Weakland and Wood 2005); and 2) 3-minute point counts likely underestimate occurrence because the species’ song does not carry long distances (USFWS 2006; Robbins et al. 2009).

Due to the small number of routes where this species is detected in Ontario and Quebec, no BBS trend data are available for Canada (Downes and Collins 2008). BBS trends presented later in this report were obtained from survey-wide efforts (Sauer et al. 2008).

Ontario Breeding Bird Atlas

The second Ontario Breeding Bird Atlas is the principal source of data assessing Cerulean Warbler population trends in the core of its breeding range in Canada. This program compares the distribution of breeding birds in the 20-year period between 1981-85 and 2001-05, using data collected by volunteers who visited representative habitats within 10 x 10-km squares for at least 20 hours during the entire breeding season (Cadman et al. 2007). The percent change in the probability of observation of the Cerulean Warbler in Ontario over a period of 20 years was calculated by comparing the percentage of the squares with breeding evidence in the first atlas period to that in the second atlas period, adjusting for known differences in observer effort (Blancher et al. 2007).

Because it is based on presence/absence information, the main limitation of this method is that it underestimates change in actual population numbers for common species (Francis et al. 2009). However, the Cerulean Warbler is not common in most atlas squares, and overall changes in square occupancy are likely reflective of changes in abundance. Moreover, because this species is restricted to southern Ontario, where the level of search effort was high during both atlas periods, changes in effort-corrected occurrence should not be biased by sampling coverage. On the other hand, there is likely some unmeasured positive bias in the second atlas, because participants were asked to look for Cerulean Warblers at known historical sites (Francis 2007).
A major limitation of atlas projects is that they are repeated only at 20-year intervals, which means they cannot detect changes in status at shorter intervals (Francis et al. 2009).

Database on Quebec species at risk (SOS-POP 2009)

SOS-POP is a database including all known breeding sites for species designated as vulnerable and threatened and those likely to be designated as such by the ministère des Ressources naturelles et de la Faune du Québec. This database includes all records since 1966 from the Étude des population d’oiseaux du Québec (ÉPOQ) database, a database that assimilates checklists from birdwatchers across the province. The SOS-POP database combines all possible, probable and confirmed breeding records for all species at risk into a single database. Under the direction of regional coordinators, participants are asked to visit known species at risk breeding sites and to report their observations annually. The database is managed by the provincial coordinator of Regroupement QuébecOiseaux. There are currently 13 known sites for Cerulean Warbler in the SOS-POP database, the majority of which have been monitored since 1966. 

The methods described here suggest a bias toward finding population losses, because participants are asked to visit previous breeding sites (any change in presence/absence will be a loss), rather than a random selection of sites, where change in presence/absence could be either a loss or a gain.

Queen’s University Biological Station (QUBS) research studies

Located within the Great Lakes-St. Lawrence mixed-forest region in Leeds and Grenville counties in southeastern Ontario, the QUBS is a 2600-ha managed research tract characterized as mature, second-growth (between 80 and 90 years old), upland mixed deciduous forest with a canopy layer dominated by Sugar Maple (A. saccharum), and to a lesser extent oak (Quercus sp.) and elm (Ulmus sp.; Jones et al. 2004a). The study area is largely forested but is liberally interspersed with beaver meadows, abandoned farm fields, and dry, rocky ridges. The QUBS site has been the focus of several Cerulean Warbler research studies (habitat use, behavioural studies, and population dynamics) since 1994, and represents one of the best studied and largest remaining populations across the species’ breeding range (COSEWIC 2003). Although these studies do not include population monitoring per se, there is considerable demographic information available for the area (e.g., Jones et al. 2004a; Buehler et al. 2008).

Ontario Birds At Risk program (OBAR)

Administered through Bird Studies Canada, OBAR maintains a database of breeding season occurrences of rare bird species in Ontario, particularly southern Ontario. In addition to atlas records, this database also includes information on Cerulean Warblers obtained through periodic, special surveys targeting forest birds at risk in the Carolinian zone.

Frontenac Bird Studies - Migration Research Foundation

The Frontenac Bird Studies program was established in 2009 (Migration Research Foundation 2009). The aim is to gather a baseline assessment of all breeding bird species within an area of 15,000 ha in Frontenac County (both private and public lands) including most of Frontenac Provincial Park, using a combination of roadside (secondary and tertiary roads) and off-road point counts. The study area is dominated (80%) by deciduous forests with relatively little agricultural or developed land. A total of 164 point count stations was surveyed (63 off-road, 101 roadside) in 2009.

Ontario Forest Bird Monitoring Program (FBMP)

The Ontario Forest Bird Monitoring Program (FBMP) is coordinated by Environment Canada. It began in 1987 and is designed to provide information on population trends and habitat associations of birds that breed in the forest interior. Sites consist of three to five stations in woodlands. Volunteers perform 10-minute point counts at each station twice between late May and early July. Its main limitation is that it is unknown how representative the study sites are of the landscape. In addition, it does not provide many detections of rare species like Cerulean Warbler. 


The North American Landbird Conservation Plan estimated the North American population of Cerulean Warblers at 560,000 adults (280,000 pairs) based on BBS data for 1990-1999 and based on the assumption of a detection distance of 125 m from BBS survey routes (Rich et al. 2004). A test of this assumption in bottomland forest in Tennessee by Hamel et al. (2009) suggests that the detection distance is smaller (94 m; 95% CI: 88-101 m; n = 204) than the earlier estimate. A corrected estimated should be about 875,000 adults or 437,500 pairs (Hamel et al. 2009). More recently, Partners In Flight has updated its estimate to about 625,000 adults (P. Blancher, PIF unpublished data), shortening the detection distance from 125 m to 100 m based on Hamel et al. (2009), and updating the BBS data to 1998-2007. The revised lower estimate is largely a result of fewer Cerulean Warblers detected on BBS routes in 1998-2007 compared to 1990-1999 (P. Blancher pers. comm. 2010).

In Canada, the previous estimate of population size prior to the second Ontario breeding bird atlas was 500-1000 breeding pairs (COSEWIC 2003). Based on results from Ontario’s second breeding bird atlas completed in 2005, this estimate still seemed reasonable to Francis (2007). At least 200 territorial birds were reported during the atlas, and the species was recorded in 86 10x10 km squares (Francis 2007).

Since the completion of the atlas in 2005, additional targeted surveys have been conducted in Ontario by Frontenac Bird Studies, Bird Studies Canada and the Ontario Ministry of Natural Resources Natural Heritage Information Centre; and in Quebec by Carl Savignac. These surveys provide a somewhat more refined population estimate for Canada, which is now estimated to support between 433 and 543 pairs (866-1086mature individuals; see Table 1). Canada supports roughly 0.2% of the global population.

The largest concentration in Canada is found in the Frontenac Axis region of southeastern Ontario, which supports upwards of 300 pairs (Table 1). In this region, the QUBS provides habitat for about 90 pairs (D.A. Sutherland pers. comm. 2010), while up to 120 pairs are estimated to breed in Frontenac Provincial Park (D. Derbyshire pers. comm. 2009; D.A. Sutherland pers. comm. 2010), and 18 pairs in Charleston Lake Provincial Park (D.A. Sutherland pers. comm. 2010). An additional 50-60 pairs are believed to nest elsewhere in Frontenac County (D. Derbyshire pers. comm. 2009). The rest of the Ontario population is scattered in the Carolinian zone and along the southern limit of the Southern Shield region. About 80 pairs occur in pockets of concentration in Middlesex County, Norfolk County, Georgian Bay Islands National Park, Awenda and Pinery provincial parks, and Minsesing Swamp (Francis 2007; J. McCracken pers. comm. 2010; D.A. Sutherland pers. comm. 2010). Outside these areas of concentration, there are few large tracts of mature deciduous forest remaining; and it is believed that the rest of southern Ontario holds no more than 50-150 pairs in scattered sites (D. Sutherland pers. comm. 2010; J. McCracken pers. comm. 2010).

In Quebec, 6 of 13 sites having historic breeding season occurrences were occupied between 2001 and 2009 (SOS-POP 2009; Savignac 2005). Breeding pairs are distributed mainly south of the Outaouais region (four sites in Gatineau Park involving 5-10 pairs; Savignac 2005, 2006, 2007), and in the southern Montérégie region (two sites; 5-10 pairs). Considering the lack of extensive surveys on public and private lands, a rough estimate of the maximum number in Quebec is about 25 pairs.

Table 1.  Recent population estimates of Cerulean Warblers in Canada.
Site/Region N Territorial Males (inferred pairs) N Mature Individuals
Frontenac Axis Region of Ontario:    
  a) Queen’s University Biological Station 90 180
  b) Frontenac Provincial Park 120 240
  c) Charleston Lake Provincial Park 18 36
  d) Other sites in Frontenac County 50-60 100-120
Norfolk County 32 64
Skunk’s Misery (Middlesex County) 14 28
Awenda Provincial Park 12 24
Georgian Bay Islands National Park/Beausoleil Island 9 18
Port Franks/Pinery Provincial Park 7 14
Minesing Swamp 6 12
Rest of Ontario 50-150 100-300
Quebec (maximum) 25 50
Total 433-543 866-1086

Fluctuations and trends

Ontario Breeding Bird Atlas

A comparison of the species’ distribution in Ontario in the 20-year period from the first (1981-85) to the second (2001-05) atlas period shows an overall non-significant decline of 30% (P = 0.18) in the probability of occurrence (Francis 2007). The most pronounced, statistically significant decline was in the Carolinian region (-47%; P = 0.08; Francis 2007), where roughly 20% of the Canadian population of Cerulean Warblers currently resides. Over a 10-year period (roughly three generations), the above values represent a non-significant decline in occurrence of about 16% overall, and a significant decline of about 27% (equivalent to -1.6% per year; 90% CI = -3.1% to -0.1%) within the Carolinian region.

North American Breeding Bird Survey

As noted above, BBS trend data are not available for Canada because of small sample sizes. Across the species’ range, several analyses were performed using new statistical approaches (Link and Sauer 2002; Sauer and Link, unpubl. data in USFWS 2006; Buehler et al. 2008). Hierarchical analysis probably represents the most reliable way to analyze BBS data, in which population parameters at different geographic scales are viewed as random variables, and regional variation in survey quality and a variety of distributional assumptions about observer effects and other nuisance parameters are taken into consideration. The most recent hierarchical analysis that was conducted for the 1966-2005 period shows an average range-wide decline of 3.2%/year (95% CI = -4.2 to -2.0; P = 0.001; n = 243 routes; Sauer and Link, unpubl. data in USFWS 2006; Figure 3). This represents an overall continental decline of 73% for the 40-year period. Over the most recent 10-year period, the BBS trend is -1.9%/yr (P = 0.177, n = 125 routes), which translates to a 17% loss (P. Blancher pers. comm. 2010).

Database on Quebec Species at Risk (SOS-POP 2009)

In the Montérégie region of Québec, species at risk monitoring programs indicate that sites with breeding evidence have declined by 83% since 1966, with the species apparently disappearing from 5 of 6 sites that were followed for ≥15 years (SOS-POP 2009; CDPNQ 2009).

Figure 3.  Survey-wide BBS hierarchical trend analysis for the Cerulean Warbler, 1966-2005, showing 95% Confidence Intervals (from Sauer and Link’s unpubl. data in USFWS 2006).

Chart showing Breeding Bird Survey hierarchical trend analysis for the Cerulean Warbler from 1966 to 2005.

Queen’s University Biological Station (QUBS)

The demographic data set (1995-2004) on Cerulean Warblers in eastern Ontario indicates that the population at the QUBS has remained relatively constant over an 8-year period (Jones et al. 2004a). However, this persistence may be largely due to birds immigrating from other areas, because the QUBS population is not producing enough fledglings to sustain itself (Jones et al. 2004a), for reasons that are not clear at this time.

Ontario Forest Bird Monitoring Program (FBMP)

An analysis of FBMP data from 16 sites that supported Cerulean Warblers during the period 1987 to 2009 yielded a statistically non-significant trend averaging 2.6% per year (-11.9 to 19.5; 95% CI; R. Russell pers. comm. 2010). 

Population trend summary

To conclude, data provided by the second breeding bird atlas in Ontario probably gives the best overall picture of Cerulean Warbler trends in the Canadian range. These results suggest that Cerulean Warblers are declining in certain parts of the province (Carolinian region) and may be somewhat more stable in others (Frontenac Axis). Monitoring of breeding sites over more than 40 years in southwestern Quebec also suggests a decline in number of occupied sites there. Outside Canada, BBS results for the U.S. suggest that the Cerulean Warbler has been declining significantly, with a decadal trend of -17% (Sauer et al. 2008).

Overall for Canada, the best estimate for population change is the decadal 16% decline in probability of occurrence reported in the second Ontario breeding bird atlas. Although this value was statistically not significant (P = 0.18), it is a minimum estimate, recognizing that there was an unmeasured positive bias in the second atlas. This bias occurs because a) participants were asked to look for Cerulean Warblers at known historical sites (see Sampling Effort and Methods), and b) disappearances from an unknown number of 10 x 10 km squares would have involved more than a single territorial pair.

Rescue effect

Genetic studies indicate that there is a high probability of continued gene flow between Cerulean Warbler populations in Canada and the U.S. However, the future likelihood of birds immigrating from adjacent U.S. states to augment the Canadian population is weakening, given the strength of population declines across the U.S. (Buehler et al. 2008). It is reasonable to assume that these population declines can be expected to continue into the foreseeable future, largely owing to continuing threats on the wintering grounds (see below). Moreover, if rescue was occurring effectively, the Canadian population should be relatively stable, which has not been the case over at least the past 20 years. As such, the available evidence suggests that the current volume of immigration from the U.S. does not appear to be sufficient to mitigate further declines in Canada.

Threats and Limiting Factors

Habitat loss

Loss of humid montane forest on the wintering grounds is one of the major threats facing the Cerulean Warbler (Caycedo 2009). Areas where Cerulean Warblers winter (mainly between 500-2000 m in the Andes Mountains) are under intense pressure from human development and agriculture; it is estimated that about 60% of the natural forest habitat used by Cerulean Warblers in the Northern Andes ecoregion has already been lost (Moreno et al. 2006).  

Threats occurring on the wintering grounds include: deforestation of forest remnants to enhance production of agro-forestry systems (mainly sun coffee and pastures); application of pesticides that reduce insect food supplies; and lack of connectivity between suitable habitats at the landscape level due to extensive areas of monocultures. Although Cerulean Warblers will use modified landscapes for overwintering and even appear to do well in rustic shade-coffee plantations (Bakermans et al. 2009), there is evidence of a high mortality rate sometime during the non-breeding period (Jones et al. 2004a). Furthermore, increasing rates of conversion of rustic shade-coffee plantation to commercial plantations of sun coffee and banana may result in future reduction of suitable habitat (USFWS 2006; Caycedo 2009).

Loss of migratory stopover habitat is also a threat to this species (Welton et al. 2008; Caycedo 2009). Cerulean Warblers may be particularly vulnerable to habitat loss in Central America, because spring stopovers take place in a narrow arc that includes southern Belize, eastern Guatemala, northern Honduras, and possibly northwestern Nicaragua (Welton et al. 2008; Caycedo 2009). In addition, substantial loss of suitable stop-over habitat for many Neotropical migrants has occurred along the Gulf coast of the U.S. (Barrow et al. 2005).

Habitat loss is also assumed to be a primary factor driving the decline of Cerulean Warbler populations on the breeding grounds (Robbins et al. 1992). Habitat loss and degradation are likely responsible for the observed decline in the Carolinian region of southwestern Ontario (Eagles 1987), but more studies are needed. In the southern United States, Cerulean Warbler populations are affected by the conversion of floodplain forests to agricultural lands, stream channelization, reservoir construction, housing, and commercial development (Robbins et al. 1992). Other industrial development activities happening in the core range in the northeast (e.g., ridge-top mining activities) also have significant impacts on abundance and territory density of Cerulean Warblers (Weakland and Wood 2002; Wood et al. 2006).

Habitat fragmentation

The Cerulean Warbler is considered an area-sensitive species and is negatively affected by habitat fragmentation (Robbins et al. 1992; Hamel 2000a; Parker et al. 2005; Weakland and Wood, 2005; Wood et al. 2006). Cerulean Warblers are reported to require minimum forest tract sizes ranging from at least 10 ha in Ontario (Oliarnyk and Robertson 1996), to 138 ha in the mid-Atlantic States (Robbins et al. 1989) and to ³1600 ha in the Coastal Plain (Robbins et al. 1992). In the mid-Atlantic States, maximum density of Cerulean Warblers occur in woodlands ³3000 ha (Robbins et al. 1989). In the north and northeast portions of the range, Cerulean Warblers occupy a wide array of tract sizes, but most records are from very large tracts of forest (>2500 ha), and only 10% are found in patches £ 250 ha (Rosenberg et al. 2000). The spatial distribution of forest patches (especially distance between suitable patches) undoubtedly also plays an important role in settlement patterns and area sensitivity (COSEWIC 2003).

In a landscape dominated by coal mining development in West Virginia, Cerulean Warblers do not appear to avoid internal (soft) edges, such as roads and trails, but do appear to avoid the external (hard) edges created by mining (Weakland and Wood 2005). Territory density in intact forest is 6.5 times greater than in fragmented forests (4.6 territories per 10 ha in intact forest vs 0.7 territories per 10 ha in fragmented forest; Weakland and Wood 2005). Moreover, abundance and territory density  increased with distance from the edge, and edge effects extended 340 m into the forest, which suggests that habitat near the edge is less suitable for breeding Cerulean Warblers (Weakland and Wood 2005; Wood et al. 2006).

Additionally, demographic models of five populations distributed across the species’ breeding range suggest that populations located principally in agriculture-dominated landscapes with £50 % of forest cover appeared to be incapable of producing sufficient young to offset mortality, compared to populations in large, intact forested landscapes (Buehler et al. 2008). Cerulean Warbler populations in highly fragmented landscapes can become sink populations and extirpation can occur rapidly without immigration to offset poor reproduction and annual mortality (Buehler et al. 2008). In contrast, populations located in large forested landscapes (e.g., Frontenac Axis in southeastern Ontario) may be demographically capable of producing stable populations, at least in years when fecundity and survival rates are high (Buehler et al. 2008).

Forest harvesting

Several studies have reported negative impacts of forest harvesting on Cerulean Warbler populations (Wood et al. 2005; Hamel et al. 2006; Register and Islam 2008). Generally, current forest harvesting practices in many regions favour short-rotations, which does not allow the forest to reach older-growth conditions and reduces forest structural diversity (Hamel et al. 2006). In West Virginia, Cerulean Warblers responded negatively to even-age, 15-18 year clearcuts (Wood et al. 2005). In Arkansas, Cerulean Warblers were reduced in abundance when harvest prescriptions included removing tall, shade-tolerant mid-story trees that are favoured by Cerulean Warblers for nesting (Hamel et al. 2006).

Effects of outbreaks of forest insects and exotic forest pathogens on habitat quality

The loss of key tree species (especially oaks from Oak Wilt and Gypsy Moth outbreaks) may be negatively affecting habitat quality across the species’ breeding range. The recent discovery of the European Oak Borer (Agrilus sulcicollis) in southern Ontario poses a serious potential threat to oak stands and Cerulean Warbler breeding habitat in Canada (D.A. Sutherland pers. comm. 2010) considering that ca. 50% of nesting trees in some areas in Ontario are in oaks (Peck and James 1987; Robbins et al. 1992). More studies are needed to assess the severity of this threat in Canada. Potential affects on Cerulean Warbler habitat stemming from the recent invasion of Emerald Ash Borer (Agrilus planipennis) into southern Ontario are presently unknown.

Collisions with tall structures

Cerulean Warblers are known to collide with tall structures during nocturnal migration (e.g., Stoddard and Norris 1967; Shire et al. 2000). The intensity of this threat may be expected to continue to increase with burgeoning numbers of telecommunications towers and other tall structures across the landscape (e.g., see Avatar Environmental et al. 2004), but more studies are needed to assess this.


Across the species’ breeding range, principal nest predators are thought to include American Crow (Corvus brachyrhynchos), Blue Jay (Cyanocitta cristata), Eastern Gray Squirrel (Sciurus carolinensis), Red Squirrel (Tamiasciurus hudsonicus), and occasionally snakes (Buehler et al. 2008; Roth and Islam 2008). Potential predators in southeastern Ontario include Gray Squirrel, Blue Jay, Gray Ratsnake (Elaphe obsoleta) and Red-shouldered Hawk (Buteo lineatus; Oliarnyk and Robertson 1996).

Negative effects from nest predation pressure have been reported in several studies of Cerulean Warblers (Oliarnyk and Robertson 1996; Barg et al. 2006b; Rogers 2006; Buehler et al. 2008; Roth and Islam 2008). However, such losses seem relatively minor. For example, nest loss due to predation was only 19% in Michigan (Rogers 2006) and 14% in a study conducted in Ontario (Oliarnyk and Robertson 1996). Nevertheless, nest predation rates are significantly higher in landscapes with £50% forest cover within a 10-km radius, even when forest patch size is relatively large (i.e., ≥250 ha; Buehler et al. 2008).

Brood-parasitism by Brown-headed Cowbirds

A low to moderate level of brood parasitism by Brown-headed Cowbirds (Molothrus ater) has been documented across the Cerulean Warbler’s range (Peck and James 1987; Oliarnyk and Robertson 1996; Hamel 2000a; Rogers 2006). At QUBS, parasitism by cowbirds is generally low (Oliarnyk 1996; Oliarnyk and Robertson 1996). Reported rates of parasitism include 17.9% (n = 39 nests) for Ontario (Peck and James 1987), 16% (n = 26) in Indiana (Buehler et al. 2008), and 25% (n = 12) in Michigan (Rogers 2006).

Weather-related events

Intense ice storms in the breeding range of the Cerulean Warbler are known to negatively affect breeding success and abundance of this species (Bannon and Robert 1995; Jones et al. 2001; Morneau 2002; Hamel et al. 2004). In the year following the 1998 ice storm in eastern Ontario, nest success dropped from about 70% in the first years of the study (1995-1997) to only 10% after the ice storm disturbance (Jones et al. 2001). Reduction in foliage cover may have rendered Cerulean Warbler nests more susceptible to predation (Jones et al. 2001). Similarly, small populations of Cerulean Warblers in southern Quebec appear to have disappeared in four localities and decreased in abundance in another following frequent ice-storm events (Bannon and Robert 1995; Morneau 2002). Similar effects of ice storms were also noted in Arkansas (Hamel et al. 2004).

Other severe climate-related events occurring during the early parts of the breeding season can negatively affect Cerulean Warblers. In 2003, two cold spells caused 29% (n = 14 nests) and 57% (n = 7 nests) nest failure in Indiana (Roth and Islam 2008).

Protection, Status and Ranks

Legal protection and status

In Canada, the Cerulean Warbler and its nests and eggs are protected under the Migratory Birds Convention Act, 1994 (Environment Canada 2004). COSEWIC previously assessed this species in May 2003 as Special Concern. It is presently listed under Canada’s Species at Risk Act Schedule 1 as a species of Special Concern (Government of Canada 2009). In Ontario, it is recognized as a species of Special Concern under the Endangered Species Act, 2007 (OMNR 2009). In Quebec, Cerulean Warblers are protected under the Act respecting the conservation and development of wildlife (L.R.Q., c. C-61.1; Gouvernement du Québec 2009), and it is prohibited to hunt, capture, keep in captivity, sell this species, or destroy or damage its nest and eggs. Its Threatened status in Quebec offers additional protection through the Act Respecting Threatened or Vulnerable Species

Non-legal protection and ranks

Globally, the species is considered vulnerable by the International Union for the Conservation of Nature (IUCN Red List 2004; see Table 2). NatureServe ranks it as apparently secure globally (G4; NatureServe 2009). In the United States, the Cerulean Warbler is ranked as apparently secure, but is ranked as vulnerable in 11 states, imperiled in 7 and critically imperiled in 10 (NatureServe 2009). It is listed as being of Conservation Concern by the U.S. Fish and Wildlife Service and is under consideration for listing as Threatened under the U.S. Endangered Species Act (Ruley 2000; Salveter 2002). It is on the Partners In Flight ‘Watch List’ and has been identified as a top priority for conservation efforts throughout its range (Rich et al. 2004).

In Canada, the Cerulean Warbler is ranked as Vulnerable (N3B) by NatureServe (Table 2). In Ontario, it is is ranked Vulnerable (S3B; Table 2). In Quebec, it is ranked as Severely Imperiled (S1B; Table 2).

Table 2.  Ranks assigned to the Cerulean Warbler, based on NatureServe (2009) and General Status Ranks (Canadian Endangered Species Conservation Council (CESCC) 2006).
Region Rank* General Status
Global G4
United States N4B
Canada N3B May be at risk
Ontario S3B May be at risk
Québec S1B May be at risk
Manitoba Accidental
New Brunswick Accidental
Nova Scotia Accidental
Newfoundland Accidental

*  G = global rank; N = national rank; S = subnational rank assigned to a province or state. S1 indicates that a species is critically imperiled because of extreme rarity (often 5 or fewer occurrences) or because of some factor(s) such as very steep declines, making it especially vulnerable to extirpation; S2 indicates that a species is imperiled because of rarity or other factors making it very vulnerable to extirpation, usually with 6 to 20 occurrences or few individuals remaining (i.e., 1000 to 3000); S3 indicates that a species is vulnerable at the subnational level because it is rare or uncommon, or found only in a restricted range, or because of other factors making it vulnerable to extirpation; S4 indicates a species is apparently secure; S5 indicates that a species is secure because it is common, widespread, and abundant in the state/province. A B suffix indicates that the status refers to the breeding population.

Habitat protection and ownership

Although relatively large numbers of Cerulean Warblers are found on public lands, the bulk of potentially suitable breeding habitat in Canada is privately owned (COSEWIC 2003). For example, in eastern Ontario, about 2600 ha of prime Cerulean Warbler habitat is privately owned by Queen’s University (Jones and Robertson 2001).
It has been estimated that 10-20% of the Canadian population is found on public lands, but further surveys are needed to increase the accuracy of this estimate (COSEWIC 2003). Frontenac Provincial Park, located less than 50 km west of the Queen’s University Biological Station (QUBS), probably represents one of the most important nesting areas in Ontario on public land (D. Derbyshire pers. comm. 2009). Other provincial protected areas in Ontario that hold breeding pairs include Charleston Lake Provincial Park, Murphy Point Provincial Park, Awenda Provincial Park, Pinery Provincial Park, Rondeau Provincial Park, forests owned and managed by Middlesex County, and forests in Norfolk County largely owned and managed by the Long Point Region Conservation Authority (COSEWIC 2003; D.A. Sutherland, J. McCracken, and S. Lunn  pers. comm.. 2010). Cerulean Warblers also occur in some protected areas managed by Parks Canada, including Georgian Bay National Park (fide P. Nantel unpubl. data 2009) and Rideau Canal National Historic Site (fide V. Blazeski unpubl. data 2010). In Quebec, federal protected sites include Gatineau Park (Savignac 2005). Other protected lands in Quebec include Mont-Saint-Hilaire Natural Reserve, Mont Saint-Bruno National Park and Philipsburg Migratory Bird Refuge (Bannon and Robert 1995).

Depending on forest management regimes of land owners (e.g., tree harvest rotational periods and intensity of harvests), occurrence on “protected” lands does not necessarily confer protection for Cerulean Warblers, owing to this species’ reliance on the retention of older-growth forest attributes.


Thanks to Jason Jones and Paul Hamel for sharing their knowledge on Cerulean Warbler ecology. Pierre Bannon, François Shaffer, Dan Derbyshire, Don Sutherland, Jon McCracken, Jody Allair, Valerie Blazeski, and Rachel Mayberry provided unpublished data on occurrence and abundance and site habitat descriptions. The report benefited from comments and perspectives provided by Peter Blancher, Ruben Boles, Vivian Brownell, Lucy Emmott, Patrick Hubert, Darren Irwin, Jason Jones, Marty Leonard, Annie Levesque, Rachel Mayberry, Jon McCracken, Bill Montevechhi, Joe Nocera, Don Sutherland, Megan Rasmussen, and Lauren Trute. Alain Filion (COSEWIC secretariat) provided information on the index of area of occupancy. Funding for preparation of this report was provided by the Canadian Wildlife Service of Environment Canada.

Authorities Consulted

The following list includes only those persons who contributed substantially to this report. However, the report writer also wishes to thank all those who provided input, including the Conservation Data Centres, Natural Heritage Information Centres and Parks Canada Agency, as well as representatives of the provinces corresponding to the species’ range.

P. Bannon. Author of Où observer les oiseaux au Québec. Montréal QC.

P. Blancher. Scientist, Environment Canada, National Wildlife Research Centre, Ottawa, ON.

V. Blazeski. Resource Conservation Manager. Rideau Canal National Historic Site, Parks Canada. Smiths Fall, ON.

D. Derbyshire. Biologist, Frontenac Bird Studies. Perth, ON.

P.B. Hamel. Biologist. Center for Bottomland Hardwoods Research

Stoneville, MS.

M. Gosselin. Collections Manager, Vertebrate Section, Canadian Museum of Nature. Gatineau, QC.

J. Jones. Senior Ecologist.Tetra Tech EC- Sciences. Boston, MA.

J. McCracken. Director, National Programs. Bird Studies Canada-Études d’Oiseaux Canada. Port Rowan, ON.

P. Nantel. Specialist, Species Assessment. Ecological Integrity Branch, Parks Canada.

A. Paquet. Wildlife Technician, ministère des Ressources naturelles et de la Faune du Québec, Faune Québec, Direction de l’expertise sur la faune et ses habitats. Québec (Québec).

R.J. Robertson. Professor of Biology. Queen’s University. Kingston, ON.  

F. Shaffer. Wildlife Biologist. Canadian Wildlife Service, Environment Canada, QC.

D.A. Sutherland. Zoologist. Ontario Natural Heritage Information Centre, Biodiversity Section, Fish & Wildlife Branch, Ontario Ministry of Natural Resources. Peterborough, ON.

J. Wu. Data Management and Mapping Specialist, Species Assessment Section - COSEWIC Secretariat. Canadian Wildlife Service, Environment Canada. Gatineau, QC.

Information Sources

American Ornithologists’ Union. 1998. Check-list of North American birds, 7th ed. Am. Ornithol. Union, Washington, D.C.

Andrade P., I. Forestal. J. Gálvez, F. Rodas, and F. Sarango. 2006. Determinación de la presencia y distribución de Cerulean Warbler (Dendroica cerulea) en el sur de ecuador. El grupo ceruleo: a subcommittee of the Cerulean Warbler Technical Group. [accessed July 2009].

Askins, R.A. 1993. Population trends in grassland, shrubland, and forest birds in eastern North America. Current Ornithology 11:1-34.

Avatar Environmental, EDM International, and Pandion Systems. 2004. Notice of Inquiry Comment Review: Avian/Communication Tower Collisions. Prepared for US Federal Communications Commission.

Bakermans, M.H., A.C. Vitz, A.D. Rodewald, C.G. Rengifo. 2009. Migratory songbird use of shade coffee in the Venezuelan Andes with implications for conservation of Cerulean Warbler. Biological Conservation 142:2476-2483.

Bannon, P. and M. Robert. 1995. Paruline azurée, p. 910-911 in Gauthier, J. and Y. Aubry (sous la direction de). Les oiseaux nicheurs du Québec: Atlas des oiseaux nicheurs du Quebéc méridional. Association québécoise des groupes d’ornithologues, Société québécoise de protection des oiseaux, Service canadien de la Faune., Environnement Canada, Région du Québec, Montreal, xviii + 1295 p.

Barg, J.J.  2002. Small-scale biological phenomena in a neotropical migrant songbird: space use, habitat use, and behaviour within territories of male Cerulean Warblers. M.Sc. Thesis, Queen’s University, Kingston, ON.

Barg, J.J., J. Jonesand R.J. Roberston. 2005. Describing breeding territories of migratory passerines: suggestions for sampling, choice of estimator, and delineation of core areas. Journal of Animal Ecology 74:139-149.

Barg, J., D.M. Aiama, J. Jones, and R.J. Robertson. 2006a. Within-territory habitat use and microhabitat selection by male Cerulean Warblers (Dendroica cerulea). Auk 123:795-806.

Barg, J.J., J. Jones, M.K. Girvan, and R.J. Robertson. 2006b. Within-pair interaction and parental behavior of Cerulean Warblers breeding in eastern Ontario. Wilson Journal of Ornithology 118:316-325.

Barrow, W.C., Jr., L.A. Johnson Randall, M.S. Woodrey, J. Cox, E. Ruelas I., C.M. Riley, R.B. Hamilton, and C. Eberly. 2005. Coastal forests of the Gulf of Mexico: a description and some thoughts on their conservation. Pp. 450-464 in C.J. Ralph and T.D. Rich, eds. Bird Conservation Implementation and Integration in the Americas: Proceedings of the Third International Partners in Flight Conference. Vol. 1. Gen. Tech. Rep. PSW-GTR-191.

Blancher, P., M.D. Cadman, B.A. Pond, A.R. Couturier, E.H. Dunn, C.M. Francis, and R.S. Rempel. 2007. Changes in bird distribution between atlases. pp. 32-48 In M.D. Cadman, D.A. Sutherland, G.G. Beck, D. Lepage, and A.R. Couturier (eds.). Atlas of the Breeding Birds of Ontario, 2001-2005. Bird Studies Canada, Environment  Canada, Ontario Field Ornithologists, Ontario Ministry of Natural Resources, and Ontario Nature, Toronto, xxii + 706 pp.

Broley, C.L. 1929. Note on the Cerulean Warbler. Canadian Field-Naturalist 43:21.

Buehler, D.A., M. J. Welton, and T.A. Beachy. 2006. Predicting Cerulean Warbler habitat use in the Cumberland Mountains of Tennessee.  Journal of Wildlife Management 70:1763-1769.

Buehler, D.A.,  J.J. Giocomo,  J. Jones, P.B. Hamel, C.M. Rogers, T.A. Beachy, D.W. Varble, C.P. Nicholson, K.L. Roth, J.J. Barg, R.J. Robertson, J.R. Robb, K. Islam. 2008. Cerulean Warbler reproduction, survival, and models of population decline. Journal of Wildlife Management 72:646-653.

Cadman, M.D., D.A. Sutherland, G.G. Beck, D. Lepage, and A.R. Couturier (eds.). 2007. Atlas of the Breeding Birds of Ontario, 2001-2005. Bird Studies Canada, Environment  Canada, Ontario Field Ornithologists, Ontario Ministry of Natural Resources, and Ontario Nature, Toronto, xxii + 706 pp.

Calderón-Franco, D. 2006. Study of the foraging ecology and behavior of the Cerulean Warbler (Dendroica cerulea) in the Western Andes of Antioquia, Colombia (2005-2006 wintering season). El grupo ceruleo: a subcommittee of the Cerulean Warbler Technical Group. Web site: [accessed July 2009].

Calderón-Franco, D. 2007. Cerulean Warbler (Dendroica cerulea) foraging behavior in the Western Andes of Colombia. Cerulean Warbler Summit 2, Morgantown (WV), US Feb 2007. El grupo ceruleo: a subcommittee of the Cerulean Warbler Technical Group, [accessed July 2009].

Canadian Endangered Species Conservation Council (CESCC). 2006. Wild species 2005: The general status of species in Canada. Ottawa: Minister of Public Works and Government Services Canada. [accessed June 2009].

Caycedo P.C. 2009.  State of Knowledge and Conservation Plan of Cerulean Warbler in its Non-breeding Areas. Draft report. Fundacion ProAves and American Bird Conservancy.  114 pp.

Centre de données sur le patrimoine naturel du Québec (CDPNQ). Juillet, 2009. Extractions du système de données pour le Québec. Ministère des Ressources naturelles et de la Faune (MRNF), Québec. 7 pp.

Colorado, G., and T. Cuadros. 2006. Geographic Distribution and Habitat Use by Cerulean Warbler (Dendroica cerulea) in Natural Vegetation and Agro-ecosystems in Northern Colombia, Colombia. Final report presented to the Cerulean Warbler Technical Group. El grupo ceruleo: a subcommittee of the Cerulean Warbler Technical Group. [accessed July 2009].

Colorado, G., P. Hamel, A. Rodewald, and W. Thogmartin. 2008. El grupo cerúleo: collaboration to assess nonbreeding range of Cerulean Warbler in South America. Ornitol. Neotrop. 19:521–529.

COSEWIC. 2003. COSEWIC assessment and update status report on the Cerulean Warbler Dendroica cerulea in Canada. Committee on the Status of Endangered Wildlife in Canada. Ottawa. vii + 25 pp.

Davis, S.D., V.H. Heywood, O. Herrera-MacBryde, J. Villa-Lobos, and A. Hamilton. 1997. Centres of Plant Diversity: A Guide and Strategy for their Conservation. Volume 3: The Americas. IUCN Publications Unit, Cambridge, England. .

Derbyshire. D. pers. comm. Biologist, Frontenac Bird Studies. Perth, ON. Email correspondence to C. Savignac. August 2009.

Dillon, M.O. 1994. Bosques húmedos del norte del Perú. Arnaldoa 2(1): 29-42.

Downes, C.M. and B.T. Collins. 2008. Web site of the Canadian Bird Trends Database, Version 2.2, Migratory Bird Conservation Division, Canadian Wildlife Service, Environment Canada, Gatineau, Québec.

Dunn, J.L., and K.L. Garrett. 1997. A Field Guide to Warblers of North America. Hougton- Mifflin Co., Boston, MA.

Environment Canada. 2004. Migratory Birds Conservation. Version 1, November 2006 [accessed June 2009].http://www.cws-scf.ec.gc.ca/mbc-com/default.asp?lang=En&n=CF4732B8-1

Eagles, P.F.J. 1987. Cerulean Warbler. Pp. 396-397 in M.D. Cadman, P.F.J. Eagles, and F.M. Helleiner, (eds.). Atlas of Breeding Birds of Ontario. University of Waterloo Press, Waterloo, ON.

Francis, C.M. 2007. Cerulean Warbler. Pp. 500-501 in M.D. Cadman, D.A. Sutherland, G.G. Beck, D. Lepage, and A.R. Couturier (eds.). Atlas of the Breeding Birds of Ontario, 2001-2005. Bird Studies Canada, Environment  Canada, Ontario Field Ornithologists, Ontario Ministry of Natural Resources, and Ontario Nature, Toronto, xxii + 706 pp.

Francis C.M., P.J. Blancher and R.D. Phoenix. 2009. Bird monitoring programs in Ontario: What have we got and what do we need? Forestry Chronicle 85:202-217.

Fundación proaves Colombia. 2006. Evaluación y monitoreo del rango de distribución de lareinita cerúlea (Dendroica cerulea) en Colombia. Reporte final presentado por Fundación proaves. Presentado a: David Melhman, The Nature Conservancy. El grupo ceruleo: a subcommittee of the Cerulean Warbler Technical Group. [accessed July 2009].

Gabbe, A.P., S.K. Robinson, and J.D. Brawn. 2002. Tree-species preferences of foraging insectivorous birds: implications for floodplain forest restoration. Conservation Biology 16:462–470.

Girvan, M.K., J. Jones, D.R. Norris, J.J. Barg, T.K. Kyser, and R.J. Robertson. 2007. Long-distance dispersal by male Cerulean Warblers. Avian Conservation and Ecology 2:3. [accessed July 2009].

Government of Canada. 2009. Species at Risk Species Registry. [accessed June 2009].

Gouvernement du Québec. 2009. L.R.Q., chapitre C-61.1, Loi sur la conservation et la mise en valeur de la faune. Disposition préliminaire. Web site: http://www2.publicationsduQuébec.gouv.qc.ca/
dynamicSearch/telecharge.php?file=/C_61_1/C61_1.htm&type=2 [accessed July 2009].

Hamel, P.B., 1998. Cerulean Warbler Status Assessment. USDA Forest Service, Southern Research Station, Center for Bottomland Hardwoods Research, Stoneville, MS. 136 pp.

Hamel, P.B. 2000a. Cerulean Warbler (Dendroica cerulea). In A. Poole and F. Gill, (eds.). Birds of North America, No. 511. The Birds of North America, Inc., Philadelphia, PA.

Hamel, P.B. 2000b. Cerulean Warbler Status Assessment. U.S. Fish and Wildlife Service, Fort Snelling, MN. 141 pp. Web site: http://www.fws.gov/midwest/endangered/birds/cerw/cerw-sa.pdf [accessed June 2009].

Hamel, P.B. 2003. Suggestions for a Silvicultural Prescription for Cerulean Warblers in the Lower Mississippi Alluvial Valley. U.S. Forest Service Gen. Tech. Rep. PSW 191: 567-575.   

Hamel, P.B., D.K. Dawson, and P.D. Keyser. 2004. How we can learn more about the Cerulean Warbler (Dendroica cerulea). Auk 121:7-14.

Hamel, P.B., M. Staten, R. Wishard. 2006. Initial Cerulean Warbler (Dendroica cerulea) response to experimental silvicultural manipulations, Desha Co., Arkansas. In: Connor, K.C., ed. Proceedings of the 13th Biennial Southern Silvicultural Conference. Gen. Tech. Rep. SRS-92. Asheville, NC: U.S. Department of Agriculture, Forest Service, Southern Research Station: 3-9.

Hamel, P.B. and K.V. Rosenberg. 2007.  Developing Management Guidelines for Cerulean Warbler Breeding Habitat. U.S. Forest Service Gen. Tech. Rep. SRS 101:364-374.   

Hamel, P.B., M. Welton, C.G. Smith III, and R.P. Ford. 2009. Test of Partners in Flight effective detection distance for Cerulean Warbler. Proc. Fourth Int. Partners In Flight Conf: Tundra to the Tropics. Pp. 328-333.

Hands, H.M., R.D. Drobney, and M.R. Ryan. 1989. Status of the Cerulean Warbler in the Northcentral United States. Missouri Coop. Fish Wildl. Res. Unit Rep. 11 pp.

Henderson, A., S.P. Churchill, and J.L. Luteyn. 1991. Neotropical plant diversity. Nature 351:21-22.

Herzog, S.K., V.H. García-Solíz, and S.E. Davis. 2009. Status of the Cerulean Warbler (Dendroica Cerulea) at the southern terminus of its non-breeding range, with a review of other Nearctic-neotropical migrant parulidae in Bolivia.  Ornit. Neotrop. 20:121–130.

IUCN Red List. 2004. Threatened Birds of the World 2004. CD-ROM. Cambridge, UK: Birdlife International.

Jahn, O. and P. Mena Valenzuela. 2006. Status and Ecology of the Cerulean Warbler Dendroica cerulea in Northwestern Ecuador. Technical Report Contract no. MBP-CERW-20050810. El grupo ceruleo Web site.

Jones.  J. Senior Ecologist.Tetra Tech EC- Sciences. Boston, MA. Email correspondence to Carl Savignac, August 2009.

Jones, J. 2000. Assessing Conservation Utility: A Case Study of the Cerulean Warbler in Eastern Ontario. Ph.D. dissertation. Queen’s University, Kingston, ON.

Jones, J., P.R. Perazzi, E.H. Carruthers, and R.J. Robertson. 2000. Sociality and foraging behavior of the Cerulean Warbler in Venezuelan shade-coffee plantations. Condor 102:958-962.

Jones, J., R.D. DeBruyn, J.J. Barg, and R.J. Robertson. 2001. Assessing the effects of natural disturbance on a neotropical migrant songbird. Ecology 82: 2628–2635.

Jones, J. and R.J. Robertson. 2001. Territory and nest-site selection of Cerulean Warblers in eastern Ontario. Auk 118:727–735.

Jones, J., J.J. Barg, T.S. Sillett, M.L. Veit, and R.J. Robertson. 2004a. Minimum estimates of survival and population growth for Cerulean Warblers (Dendroica cerulea) breeding in Ontario, Canada. Auk 121:15–22.

Jones, J., W.J. McLeish, and R.J. Robertson. 2004b. Predicting the effects of Cerulean Warbler, Dendroica cerulea management on Ontario bird species. Canadian Field-Naturalist 118:229-234.

Jones, J. D.R. Norris, M.K. Girvan, J.J. Barg, T.K. Kyser, and R.J. Robertson. 2008. Migratory connectivity and rate of population decline in a vulnerable songbird.  Condor 110:538-544.

Jones, K., and K. Islam. 2006. Selection of song perches by Cerulean Warblers. Proceedings of the Indiana Academy of Science 115:37-43.

Keddy, C. 1994. Forest History of Eastern Ontario. Eastern Ontario Model Forest Program, Kemptville, Ontario.

Link, W. A. and J. R. Sauer. 2002. A hierarchical analysis of population change with application to Cerulean Warblers. Ecology 83:2832-2840.

McCracken, J.D. 1993. Status Report on the Cerulean Warbler Dendroica cerulea in Canada. Committee on the Status of Endangered Wildlife in Canada. 31 pp.

Miller-Rushing, A. J., T. L. Lloyd-Evans, R.B. Primack, and P. Satzinger. 2008. Bird migration times, climate change, and changing population sizes. Global Change Biology 14:1959-1972.

Migration Research Foundation. 2009. Frontenac Bird Studies Website. [accessed July 2009].

Moreno, M., P. Salaman., and D. Pashley. 2006. The Current Status of Cerulean Warbler on its Wintering Ranges. U.S. Fish and Wildlife Services Tech. Rep. Web site: [accessed April  2010].

Morneau, F. 2002. Paruline azurée. Les espèces en peril. QuébecOiseaux Hors série: 64-66.

Nantel, P., unpubl. data. 2009.  Email correspondence to C. Savignac. December 2008. Specialist, Species Assessment. Ecological Integrity Branch, Parks Canada.

NatureServe. 2009. NatureServe Explorer: An Online Encyclopedia of Life [web application]. Version 7.1. NatureServe, Arlington, Virginia. [accessed July 2009].

Oliarnyk, C.J. 1996. Habitat Selection and Reproductive Success of Cerulean Warblers in Southeastern Ontario. M.Sc. Thesis, Queen’s University, Kingston, ON.

Oliarnyk, C.J.and R.J. Robertson. 1996. Breeding behavior and reproductive success of Cerulean Warblers in southeastern Ontario. Wilson Bulletin 108:673-684.

Ontario Ministry of Natural Resource. 1997. Extension Notes: Forest History in Eastern Ontario. Landowner Resource Centre, Ontario Ministry of Natural Resources and the Eastern Ontario Model Forest. Queen’s Printer for Ontario. Ottawa.

Ontario Ministry of Natural Resource. 2000. A Silvicultural Guide to Managing Southern Ontario Forests, Version 1.1. Ontario Ministry of Natural Resources, Queen’s Printer for Ontario, Toronto.

Ontario Ministry of Natural Resources. 2009. Species at Risk. Web site: [accessed August 2009].

Ouellet, H. 1974. Les oiseaux des collines montérégiennes et de la région de Montréal, Québec, Canada. Publication de Zoologie no. 5. Musées nationaux du Canada.167 pp.

Parkes, K.C. 1978. Still another parulid intergeneric hybrid (Mniotilta × Dendroica ) and its taxonomic and evolutionary implications. Auk 95:682–690.

Parker, T.A., III. 1994. Habitat, behavior and spring migration of Cerulean Warbler in Belize. American Birds 48:70-75.

Parker, T.H., B.M. Stansberry, C. D. Becker, and P.S. Gipson. 2005. Edge and area effects on the occurrence of migrant forest songbirds. Conservation Biology 19:1157-1167.

Peck, G. and R. James. 1987. Breeding Birds of Ontario: Nidiology and Distribution. Vol. 2: Passerines. Royal Ontario Museum Life Sciences Miscellaneous Publication, Toronto, ON.

Register, S.M. and K. Islam. 2008. Effects of silvicultural treatments on Cerulean Warbler (Dendroica cerulea) abundance in southern Indiana. Forest Ecology and Management 255:3502-3505.

Rich, T.D., C.J. Beardmore, H. Berlanga, P.J. Blancher, M.S.W. Bradstreet, G.S. Butcher, D.W. Demarest, E.H. Dunn, W.C. Hunter, E.E. Iñigo-Elias, J.A. Kennedy, A.M. Martell, A.O. Panjabi, D.N. Pashley, K.V. Rosenberg, C.M. Rustay, J.S. Wendt, and T.C. Will. 2004. Partners in Flight North American Landbird Conservation Plan. Cornell Lab of Ornithology. Ithaca, NY. Partners in Flight website. (Version: March 2005).

Ridgely, R.S. and J.A. Gwynne, Jr. 1989. A Guide to the Birds of Panama. Princeton University Press, Princeton, NJ.

Ridgely, R.S. and G. Tudor. 1989. The Birds of South America: Oscine Passerines. University of Texas Press, Austin, TX.

Ridgely, R.S., T.F. Allnutt, T. Brooks, D.K. McNicol, D.W. Mehlman, B.E. Young, and J.R. Zook. 2003. Digital Distribution Maps of the Birds of the Western Hemisphere, version 1.0. NatureServe, Arlington, VI.

Robbins C.S., J.R. Sauer, R.S. Greenberg, and S. Droege. 1989. Population declines in North American birds that migrate to the neotropics. Proceedings National Academy Science 86:7658-7662.

Robbins C.S., J.W. Fitzpatrick and P.B. Hamel. 1992. A warbler in trouble: Dendroica cerulea. pp. 549–562 In: Ecology and Conservation of Neotropical Migrant Landbirds (eds. J.M. Hagan III and D.W. Johnston DW),. Smithsonian Institutional Press, Washington.

Robbins, M.B., A.S. Nyári, M. Papes, and B.W. Benz. 2009. Song rates, mating status, and territory size of Cerulean Warblers in Missouri Ozark riparian forest.Wilson Journal of Ornithology121:283–289.

Rogers, C.M. 2006. Nesting success and breeding biology of Cerulean Warblers in Michigan. Wilson Journal of Ornithology 118:145-151.

Rosenberg, K.V. 2008. Cerulean Warbler, Dendroica cerulea. pp. 508-509 In: K.J. McGowan and K. Corwin, eds. The Second Atlas of Breeding Birds in New York State. Cornell University Press, Ithaca, NY. 688 pp.

Rosenberg, K.V., S.E. Barker, and R.W. Rohrbaugh. 2000. An atlas of Cerulean Warbler populations (PDF; 1.46Mb). Final report to the U.S. Fish and Wildlife Service: 1997–2000 breeding seasons. Cornell Laboratory of Ornithology, Ithaca, NY. [accessed July 2009].

Roth, K.L. and K. Islam. 2007. Do Cerulean Warblers (Dendroica cerulea) exhibit clustered territoriality? American Midland Naturalist 157:345-355.

Roth, K.L. and K. Islam. 2008. Habitat selection and reproductive success of Cerulean Warblers in Indiana. Wilson Journal of Ornithology 120:105-110.

Ruley, D.A. 2000. Petition under the Endangered Species Act to List the Cerulean Warbler, Dendroica cerulea, as a Threatened Species. Asheville, NC: Southern Environmental Law Center. 50 pp.

Russell, R. pers. comm. Biologist, Environment Canada. Ottawa, ON. Email correspondence to J. McCracken. September 2010.

Salveter, A. 2002. Endangered and Threatened Wildlife and Plants: 90-day Finding on a Petition to List the Cerulean Warbler as Threatened with Critical Habitat. Federal Register 67:65083-65086.

Sauer, J.R., J.E. Hines, and J. Fallon. 2003. The North American Breeding Bird Survey, Results and Analysis 1966-2002. Version 2003.1, USGS Patuxent Wildlife Research Center, Laurel, MD.

Sauer, J.R., J.E. Hines, and J. Fallon. 2008. The North American Breeding Bird Survey, Results and Analysis 1966-2007. Version 5.15.2008.USGS Patuxent Wildlife Research Center, Laurel, MD [accessed July 2009].

Savignac, C. 2005. Inventaire de la Paruline hochequeue (Seiurus motacilla) en Outaouais, printemps et été 2005. Rapport final préparé pour le Service canadien de la faune, Environnement Canada. Sainte-Foy. Dendroica Environnement et Faune, Chelsea. 48 pp.

Savignac, C. 2006. Inventaire de la Paruline hochequeue (Seiurus motacilla) et de la Paruline azurée (Dendroica cerulea) en Outaouais, printemps et été 2006. Rapport final préparé pour le Service canadien de la faune, Environnement Canada. Sainte-Foy. Dendroica Environnement et Faune, Chelsea. 35 pp.

Savignac, C. 2007. Inventaire de sites historiques et potentiels pour la Paruline hochequeue (Seiurus motacilla), la Paruline azurée (Dendroica cerulea) ainsi que la Paruline à ailes dorées (Vermivora chrysoptera) en Outaouais et dans le parc de la Gatineau, 2007. Rapport final préparé pour Michel Robert et François Shaffer du Service canadien de la faune d’Environnement Canada, Dendroica Environnement et Faune, Val-des-Monts. 44 pp.

Shire, G.G., K. Brown, and G. Winegrad. 2000. Communications Towers: A Deadly Hazard to Birds. American Bird Conservancy, Washington, DC. 23 pp.

Sillett, T.S. and R.T. Holmes. 2002. Variation in survivorship of a migratory songbird throughout its annual cycle. Journal of Animal Ecology 71:296-308.

Stiles, F.G., and A.F. Skutch. 1989. A Guide to the Birds of Costa Rica. Cornell University Press, Ithaca, NY.

Stoddard, H.L., Sr., and R.A. Norris. 1967. Bird casualties at a Leon County, Florida TV tower: an eleven-year study. Bulletin of the Tall Timbers Research Station 8:1-104.

Stoleson, S.H. 2004. Cerulean Warbler habitat use in an oak-northern hardwoods transition zone: implications for management. In: Yaussy, D.A.; Hix, D.M.; Long, R.P.; Goebel, P.C., eds. Proceedings of the 14th Central Hardwood Forest Conference. Gen. Tech. Rep. NE-316. Newtown Square, PA: U.S. Department of Agriculture, Forest Service, Northeastern Research Station. 535 pp.

Sutherland, D.A. pers. comm. Zoologist, Ontario Ministry of Natural Resouces Natural Heritage Information Centre. Peterborough, ON. Email correspondence to J. McCracken. April 2010.

Thogmartin, W.E., J.R. Sauer, and M.G. Knutson. 2004. A hierarchical spatial model of avian abundance with application to Cerulean Warblers. Ecological Applications 14:1766-1779.

U.S. Fish and Wildlife Service. 2006. Cerulean Warbler Risk Assessment & Conservation Planning Workshop. National Conservation Training Center Shepherdstown, West Virginia. June 12-14, 2006. 26 pp. Web site: [accessed July 2009].

Veit, M.L., R.J. Robertson, P.B. Hamel, and V.L. Friesen. 2005. Population genetic structure and dispersal across a fragmented landscape in Cerulean Warblers (Dendroica cerulea). Conservation Genetics 6:159-174.

Weakland, C.A. and P.B. Wood. 2005. Cerulean Warbler (Dendroica cerulea) microhabitat and landscape-level habitat characteristics in southern West Virginia. Auk 122:497-508.

Weir, R.D. 1989. Birds of the Kingston Region, Kingston Field Naturalists, Quarry Press, Inc., Kingston, ON.

Welton M., D. Anderson, E. Selvin Pérez, G. Colorado, D. Mehlman. 2007. Cerulean Warbler: In Search of Critical Migratory Habitat (PDF; 4.16Mb). Web site:  [accessed July 2009].

Welton, M.J., D.L. Anderson, T. Beachy, G. Colorado, E.S. Perez. 2008. Migration habitat and stopover ecology of Cerulean Warblers and other Nearctic-Neotropical migrant songbirds in Northern Central America: Honduras, Guatemala, and Mexico 2007. Report submitted to The Nature Conservancy, Migratory Bird Program, Albuquerque, NM.

Wood, P.B., J.P. Duguay, J.V. Nichols. 2005. Cerulean Warbler use of regenerated clearcut and two-age harvests. Wildlife Society Bulletin 33:851-858.

Wood, P.B., S.B. Bosworth, and R. Dettmers. 2006. Cerulean Warbler abundance and occurrence relative to large-scale edge and habitat characteristics. Condor 108: 154-165.

Woodward, R.L. 1995. Characterization and significance of song variation in the Cerulean Warbler (Dendroica cerulea). MSc Thesis. Queen’s University, Kingston, ON.

World Press Review. 1993. Colombia’s vanishing forests. World Press Review. 40(6):43.

Biographical Summary of Report Writer

Carl Savignac is director of Dendroica Environnement et Faune, an environmental consulting firm specializing in studies on the conservation of species at risk, wetlands conservation and the assessment of the impacts of industrial development projects on birds. Carl has been studying birds for over 20 years and has conducted numerous field studies in several Canadian provinces and territories in both Canada’s temperate and boreal forests. He has written several scientific reports and publications on woodpeckers, raptors, passerines, and species at risk, including seven provincial and federal species status reports. Since 2008, he has been coordinating stewardship conservation projects with private landowners in southern Quebec on forested wetlands, Red-headed Woodpecker, American Ginseng, Golden-winged Warbler and Peregrine Falcon.

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