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Lifespan, longevity, and ageing

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Maximum longevity: 12.4 years (wild) Observations: In the wild, the average longevity is 2.5 years. Record longevity in the wild is 12.4 years (http://www.fs.fed.us/database/feis/).
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Joao Pedro de Magalhaes
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de Magalhaes, J. P.
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AnAge articles

Poecile atricapillus

provided by DC Birds Brief Summaries

A small (4 ¾ -5 ¾ inches) songbird, the Black-capped Chickadee is most easily identified by its gray back and tail, pale breast, black chin, and black cap. However, positive identification of this species is complicated where its range overlaps with that of the closely related Carolina Chickadee (Poecile carolinensis). Black-capped Chickadees are generally larger and paler-winged than their southern relatives, but it is often impossible to separate the two species in the field by physical appearance alone. Hybrids with mixed physical and vocal characteristics do occur, further complicating identification. Male and female Black-capped Chickadees are similar to one another in all seasons. The Black-capped Chickadee breeds across much of southern Alaska, Canada, and the northern half of the United States. This species’ range overlaps with that of the Carolina Chickadee in a narrow band stretching from the Mid-Atlantic region west to Kansas, particularly where this species’ range dips southward at higher elevations in the lower Appalachian Mountains. Black-capped Chickadees are generally non-migratory, although small groups may wander at times when food is scarce. Black-capped Chickadees inhabit a number of forest types, including deciduous and mixed deciduous-evergreen woodland habitats. This species also utilizes human-altered habitats, and may be found in urban and suburban areas where food and sufficient tree cover are available. Black-capped Chickadees eat a variety of plant and animal foods, with insects predominating in summer and seeds becoming more important in winter. In appropriate habitat, Black-capped Chickadees may be observed foraging for food in the tree canopy, often hanging from the ends of branches while eating seeds or picking insects off of leaves and bark. This species is also a common backyard feeder bird, visiting feeding trays as part of mixed flocks of small songbirds. This species’ song, a whistled “fee-bee-bee,” and its call, a clear “chick-a-dee-dee-dee,” are both lower-pitched than those of the Carolina Chickadee. Black-capped Chickadees are primarily active during the day.

Threat Status: Least Concern

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Smithsonian Institution
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Reid Rumelt

Original Classification

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Origionally Linnaeus described Poecile atricapillus in 1766as being in the genusParus, after which it was moved to the genus Poecile.

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Lorenzo Katin-Grazzini
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Poecile atricapillus

provided by EOL authors

A small (4 ¾ -5 ¾ inches) songbird, the Black-capped Chickadee is most easily identified by its gray back and tail, pale breast, black chin, and black cap. However, positive identification of this species is complicated where its range overlaps with that of the closely related Carolina Chickadee (Poecile carolinensis). Black-capped Chickadees are generally larger and paler-winged than their southern relatives, but it is often impossible to separate the two species in the field by physical appearance alone. Hybrids with mixed physical and vocal characteristics do occur, further complicating identification. Male and female Black-capped Chickadees are similar to one another in all seasons. The Black-capped Chickadee breeds across much of southern Alaska, Canada, and the northern half of the United States. This species’ range overlaps with that of the Carolina Chickadee in a narrow band stretching from the Mid-Atlantic region west to Kansas, particularly where this species’ range dips southward at higher elevations in the lower Appalachian Mountains. Black-capped Chickadees are generally non-migratory, although small groups may wander at times when food is scarce. Black-capped Chickadees inhabit a number of forest types, including deciduous and mixed deciduous-evergreen woodland habitats. This species also utilizes human-altered habitats, and may be found in urban and suburban areas where food and sufficient tree cover are available. Black-capped Chickadees eat a variety of plant and animal foods, with insects predominating in summer and seeds becoming more important in winter. In appropriate habitat, Black-capped Chickadees may be observed foraging for food in the tree canopy, often hanging from the ends of branches while eating seeds or picking insects off of leaves and bark. This species is also a common backyard feeder bird, visiting feeding trays as part of mixed flocks of small songbirds. This species’ song, a whistled “fee-bee-bee,” and its call, a clear “chick-a-dee-dee-dee,” are both lower-pitched than those of the Carolina Chickadee. Black-capped Chickadees are primarily active during the day.

References

  • Black-capped Chickadee (Poecile atricapillus). The Internet Bird Collection. Lynx Edicions, n.d. Web. 20 July 2012.
  • Foote, Jennifer R., Daniel J. Mennill, Laurene M. Ratcliffe and Susan M. Smith. 2010. Black-capped Chickadee (Poecile atricapillus), The Birds of North America Online (A. Poole, Ed.). Ithaca: Cornell Lab of Ornithology; Retrieved from the Birds of North America Online: http://bna.birds.cornell.edu/bna/species/039
  • Poecile atricapillus. Xeno-canto. Xeno-canto Foundation, n.d. Web. 20 July 2012.
  • eBird Range Map - Black-capped Chickadee. eBird. Cornell Lab of Ornithology, N.d. Web. 20 July 2012.

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Rumelt, Reid B. Poecile atricapillus. June-July 2012. Brief natural history summary of Poecile atricapillus. Smithsonian's National Museum of Natural History, Washington, D.C.
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Robert Costello (kearins)
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Associated Plant Communities

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More info for the terms: grassland, presence, shrub, shrubs, tree, woodland

Black-capped chickadee habitat includes evergreen forested wetlands,
deciduous forested wetlands [35], deciduous woodlands, mixed woodlands,
deciduous and coniferous forests, orchards, deciduous shrubs, urban and
suburban areas [6], and disturbed areas such as old fields. Favored
riparian communities include cottonwood (Populus spp.) and sometimes
willow (Salix spp.) thickets. Birches (Betula spp.) and alders (Alnus
spp.) are often used for both food and nesting, but black-capped
chickadees use a wide variety of other plant species as well.
Black-capped chickadees occur in many habitat types [31].

In western North Dakota black-capped chickadees forage in the canopy and
nest in cavities in cottonwood stands; they occupy ash (mostly green ash
[Fraxinus pennsylvanica]) woodland interiors, and are found in pine
(Pinus spp.) communities. Black-capped chickadees are common in dense
ponderosa pine (P. ponderosa) stands with well-developed shrub layers [14].

In the Konza Prairie, Kansas, black-capped chickadees were the second
most abundant species in gallery forests. These forests are dominated
by bur oak (Quercus macrocarpa), chinkapin oak (Q. muehlenbergii), and
hackberry (Celtis occidentalis) [8]. Black-capped chickadees also occur
on adjacent prairie dominated by big bluestem (Andropogon gerardii),
little bluestem (Schizachyrium scoparium), switchgrass (Panicum
virgatum), and indiangrass (Sorghastrum nutans). The presence of
black-capped chickadees in grassland habitat was attributed to the
availability of isolated tree and shrub patches along ravines [8].

In Illinois black-capped chickadees were recorded in northern red oak
(Q. rubra)-sugar maple (Acer saccharum)-hackberry dominated woodlands [35].
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Sullivan, Janet. 1995. Poecile atricapillus. In: Fire Effects Information System, [Online]. U.S. Department of Agriculture, Forest Service, Rocky Mountain Research Station, Fire Sciences Laboratory (Producer). Available: http://www.fs.fed.us/database/feis/

Common Names

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black-capped chickadee
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Sullivan, Janet. 1995. Poecile atricapillus. In: Fire Effects Information System, [Online]. U.S. Department of Agriculture, Forest Service, Rocky Mountain Research Station, Fire Sciences Laboratory (Producer). Available: http://www.fs.fed.us/database/feis/

Cover Requirements

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More info for the terms: association, density, snag, tree

Nesting: Black-capped chickadees excavate holes in soft decayed wood
and also use existing cavities (but usually only if there is material to
be excavated) [30,31]. Dead standing trees greater than 4 inches (10
cm) dbh are used for nesting and feeding [6]. In Illinois nests were
found in cavities of stubs (broken off snags). The stubs were usually 5
to 6.6 feet (1.6-2 m) tall and 4.3 to 5.1 inches (11-13 cm) in diameter
[41].

Common nest sites are stubs of gray birch (Betula populifolia) or paper
birch (B. papyrifera) [12], but almost any early seral species with soft
wood may be used; the particular tree species favored depends on the
region. Most of these trees occur as living trees in early seral
stages, are short-lived, and persist into intermediate seral stages as
decaying snags [40]. For example, Odum [23] reported that of 18
black-capped chickadee nests he observed in upstate New York, 4 were in
pin cherry (Prunus pensylvanica), 3 in paper birch, 3 in American beech
(Fagus grandifolia), 2 in yellow birch (Betula alleghaniensis), 2 in
willows (Salix spp.), 1 in basswood (Tilia americana), 1 in sugar maple,
1 in white ash (Fraxinus americana), and 1 in an apple tree (Malus spp.)
[40]. In Vermont northern hardwoods forests, most black-capped
chickadee nest trees were in an advanced state of decay with soft outer
wood. Most nests were in trees that were shorter than neighboring
non-nest trees, but no smaller in diameter [26]. Nest trees used by
black-capped chickadees in northwestern Montana western larch (Larix
occidentalis)-Douglas-fir (Pseudotsuga menziesii) forests averaged 8
inches (20 cm) dbh and ranged from 4 to 12 inches (10-30.5 cm) dbh.
This was the smallest average diameter used by any of the cavity-nesting
birds observed [21]. Most nests were in broken-topped larch trees [20].
In Iowa 92 percent of black-capped chickadee nests in riparian
communities were in snags, 4 percent were in dead limbs of living trees,
and 4 percent were in living trees. There was a positive association
between black-capped chickadee use and snag size in snags less than 9
inches (25 cm) dbh [32]. In a riparian area in Colorado with a viable
black-capped chickadee population, snags are not plentiful but large
dead branches are. In an area dominated by plains cottonwood (Populus
deltoides var. occidentalis) with some peachleaf willow (S.
amygdaloides) and boxelder (Acer negundo), cottonwood snags comprised
2.7 percent of all cottonwood stems. This density of snags is quite
low, primarily due to the decadence of the stand. However, limb trees
(trees with more than 3.3 feet [1 m] of dead limbs greater than 4 inches
(10 cm) in diameter) made up 47 percent of the cottonwood population
[27].

In western Montana, McClelland and others [19] observed black-capped
chickadees using cavities excavated by sapsuckers (Sphyrapicus spp.)
[19]. Birdhouses are used occasionally [6].

Roosting: Black-capped chickadees roost primarily in thick vegetation
or in cavities, particularly on cold nights. Flocks seldom roost
clumped together, but flock members usually roost near each other [31].

Foraging and Feeding: Flock members usually feed from 3.3 to 33 feet
(1-10 m) apart, occasionally feeding within 2.5 inches (6 cm) for brief
periods [31].

Breeding Territory: Black-capped chickadee breeding territory size
varies with habitat quality, black-capped chickadee population density,
rank, and the course of the breeding season [30]. In upstate New York
breeding territories ranged in size from 8.4 acres (3.4 ha) to 17.1
acres (6.9 ha) and averaged 13.2 acres (5.3 ha) [23]. An eastern
Massachusetts population had an average breeding territory size of 10.7
acres (4.3 ha), but ranged from 3.8 to 17.9 acres (1.5-7.2 ha) [30].
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Sullivan, Janet. 1995. Poecile atricapillus. In: Fire Effects Information System, [Online]. U.S. Department of Agriculture, Forest Service, Rocky Mountain Research Station, Fire Sciences Laboratory (Producer). Available: http://www.fs.fed.us/database/feis/

Distribution

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The black-capped chickadee is resident from western and central Alaska,
most of Canada south of the arctic circle, south to extreme northwestern
California, extreme northeastern Nevada, northern New Mexico, central
Indiana, and northern New Jersey. At upper elevations in the
Appalachians its range extends farther south [6,31].
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Sullivan, Janet. 1995. Poecile atricapillus. In: Fire Effects Information System, [Online]. U.S. Department of Agriculture, Forest Service, Rocky Mountain Research Station, Fire Sciences Laboratory (Producer). Available: http://www.fs.fed.us/database/feis/

Food Habits

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More info for the terms: scatter-hoard, tree

Foraging: Black-capped chickadees forage from ground to treetop; ground
foraging birds have usually been displaced by higher ranking birds [30].
Black-capped chickadees forage on tree trunks, branches, and foliage
[11], feeding on insects [34], seeds, and berries. Five basic foraging
maneuvers used by black-capped chickadees are 1) gleaning (57% of time
spent foraging), 2) hanging from leaf or twig to capture food items
(28%), 3) hovering (8.8%), 4) probing (3.5%), and 5) catching insects in
flight, called hawking (2.4%). These proportions probably vary with
availability of prey, season, and other factors [31].

Caching: Black-capped chickadees cache seeds from open cones [11].
Insects are also cached. Most caching occurs in the fall, but caching
may occur at any time food is plentiful. Storage sites include bark,
dead leaves, clusters of conifer needles, dirt, and snow. Black-capped
chickadees scatter-hoard; they hide each individual food item in a
separate spot [31]. Sherry [29] reported that black-capped chickadees
can remember cache sites for at least 24 hours, and Hitchcock and Sherry
[13] reported that captive black-capped chickadees can recover caches
after 28 days.

Animal Foods: In winter, approximately 50 percent of black-capped
chickadee foods are animal foods, the rest seeds and berries. During
the breeding season, 80 to 90 percent of the black-capped chickadee diet
is animal foods [18,31]. Winter black-capped chickadee animal foods
consist mostly of eggs of moths, plant lice, katydids, and spiders. In
summer moths, caterpillars, spiders, beetles (particularly weevils),
flies, wasps, true bugs, plant lice, scale insects, leafhoppers, and
tree hoppers are common food items [18]. Smith [30] described the
black-capped chickadee summer diet as consisting largely of
caterpillars, including some hairy caterpillars such as early instar
gypsy moths and tent caterpillars. Black-capped chickadees have been
observed taking animal fat from carrion and eating suet and peanut butter
at feeders [30].

Plant Foods: Black-capped chickadee plant foods are mainly seeds and
berries including goldenrods (Solidago spp.) and staghorn sumac (Rhus
typhina) seeds in fall. Pine seeds are a main staple in fall, winter,
and spring. Seeds of hemlocks (Tsuga spp.) and birches are eaten in
winter; seeds or fruits of poison-ivies (Toxicodendron spp.),
blueberries and huckleberries (Vaccinium spp.), bayberries (Myrica
spp.), ragweeds (Ambrosia spp.), sunflowers (Helianthus spp.),
chokecherry (Prunus virginiana), and Virginia creeper (Parthenocissus
quinquefolia) are eaten in spring and summer [18]. Raspberries (Rubus
spp.), cherries (Prunus spp.), and yellow-poplar (Liriodendron
tulipifera) seeds are also consumed [30].

Fluids: Black-capped chickadees drink when water is available. Fluids
are derived mostly from foods in winter; highest demand for liquid water
is in summer [31].
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Sullivan, Janet. 1995. Poecile atricapillus. In: Fire Effects Information System, [Online]. U.S. Department of Agriculture, Forest Service, Rocky Mountain Research Station, Fire Sciences Laboratory (Producer). Available: http://www.fs.fed.us/database/feis/

Habitat-related Fire Effects

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More info for the terms: density, forest, habitat type, snag, wildfire

The most likely change due to fire in black-capped chickadee habitat is
with respect to snag density (nest site availability) and food
availability. Niemi [22] suggested that chickadee populations generally
decrease following fire, probably due to a decrease in habitat
complexity and available food.

In northern Rocky Mountain conifer forests that were severely burned
within 1 to 2 years of the study, black-capped chickadees were detected
on 13 of 33 sites. In a survey of bird habitat studies in northern
Rocky Mountain dryland habitats, segregated by habitat type,
black-capped chickadees were found on early successional (less than 10
years old) burned forest (48% of 23 studies), and mid-successional (10
to 40 years old) burned forest (40% of 5 studies). Studies reporting
observations of birds in cottonwood bottomlands had the highest
proportion of black-capped chickadee observations (64% of 21 studies).
Black-capped chickadees had a habitat preference average of 9.71 out of
15 possible habitats (if this figure were 1, a bird species is
restricted to only 1 of the 15 habitats, if the figure were 15, the
species has shown absolutely no preference for any of the available
habitat types) [39].

In northern Minnesota the Little Sioux fire burned 15,000 acres (6,072
ha) of northern hardwoods and pine forests. Black-capped chickadees
were common on unburned stands, but in postfire years 2, 3, and 4 they
were uncommon on all burned study sites [22].

In north-central Colorado a severe 1966 wildfire in lodgepole pine
(Pinus contorta) with subalpine fir (Abies lasiocarpa) and Engelmann
spruce (Picea engelmannii) resulted in widespread crown mortality. In
1974 there were many standing dead trees on the burned site. There were
no black-capped chickadees observed on the burned site, but there were a
few in the ecotone and in adjacent unburned lodgepole stands [25].
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Sullivan, Janet. 1995. Poecile atricapillus. In: Fire Effects Information System, [Online]. U.S. Department of Agriculture, Forest Service, Rocky Mountain Research Station, Fire Sciences Laboratory (Producer). Available: http://www.fs.fed.us/database/feis/

Habitat: Cover Types

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More info on this topic.

This species is known to occur in association with the following cover types (as classified by the Society of American Foresters):

1 Jack pine
5 Balsam fir
12 Black spruce
13 Black spruce-tamarack
14 Northern pin oak
15 Red pine
16 Aspen
17 Pin cherry
18 Paper birch
19 Gray birch-red maple
20 White pine-northern red oak-red maple
21 Eastern white pine
22 White pine-hemlock
23 Eastern hemlock
24 Hemlock-yellow birch
25 Sugar maple-beech-yellow birch
26 Sugar maple-basswood
27 Sugar maple
28 Black cherry-maple
30 Red spruce-yellow birch
31 Red spruce-sugar maple-beech
32 Red spruce
33 Red spruce-balsam fir
34 Red spruce-Fraser fir
35 Paper birch-red spruce-balsam fir
37 Northern white-cedar
38 Tamarack
39 Black ash-American elm-red maple
40 Post oak-blackjack oak
42 Bur oak
43 Bear oak
44 Chestnut oak
46 Eastern redcedar
50 Black locust
51 White pine-chestnut oak
52 White oak-black oak-northern red oak
53 White oak
55 Northern red oak
57 Yellow-poplar
58 Yellow-poplar-eastern hemlock
59 Yellow-poplar-white oak-northern red oak
60 Beech-sugar maple
62 Silver maple-American elm
63 Cottonwood
87 Sweetgum-yellow-poplar
93 Sugarberry-American elm-green ash
94 Sycamore-sweetgum-American elm
95 Black willow
107 White spruce
108 Red maple
109 Hawthorn
110 Black oak
201 White spruce
202 White spruce-paper birch
204 Black spruce
205 Mountain hemlock
206 Engelmann spruce-subalpine fir
210 Interior Douglas-fir
208 Whitebark pine
210 Interior Douglas-fir
211 White fir
212 Western larch
213 Grand fir
215 Western white pine
216 Blue spruce
218 Lodgepole pine
219 Limber pine
223 Sitka spruce
224 Western hemlock
225 Western hemlock-Sitka spruce
227 Western redcedar-western hemlock
228 Western redcedar
229 Pacific Douglas-fir
230 Douglas-fir-western hemlock
234 Douglas-fir-tanoak-Pacific madrone
237 Interior ponderosa pine
238 Western juniper
244 Pacific ponderosa pine-Douglas-fir
245 Pacific ponderosa pine
251 White spruce-aspen
253 Black spruce-white spruce
254 Black spruce-paper birch
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Sullivan, Janet. 1995. Poecile atricapillus. In: Fire Effects Information System, [Online]. U.S. Department of Agriculture, Forest Service, Rocky Mountain Research Station, Fire Sciences Laboratory (Producer). Available: http://www.fs.fed.us/database/feis/

Habitat: Ecosystem

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More info on this topic.

This species is known to occur in the following ecosystem types (as named by the U.S. Forest Service in their Forest and Range Ecosystem [FRES] Type classification):

FRES10 White-red-jack pine
FRES11 Spruce-fir
FRES15 Oak-hickory
FRES17 Elm-ash-cottonwood
FRES18 Maple-beech-birch
FRES19 Aspen-birch
FRES20 Douglas-fir
FRES21 Ponderosa pine
FRES22 Western white pine
FRES23 Fir-spruce
FRES24 Hemlock-Sitka spruce
FRES25 Larch
FRES26 Lodgepole pine
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Sullivan, Janet. 1995. Poecile atricapillus. In: Fire Effects Information System, [Online]. U.S. Department of Agriculture, Forest Service, Rocky Mountain Research Station, Fire Sciences Laboratory (Producer). Available: http://www.fs.fed.us/database/feis/

Habitat: Plant Associations

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More info on this topic.

This species is known to occur in association with the following plant community types (as classified by Küchler 1964):

More info for the terms: bog, forest, shrub

K001 Spruce-cedar-hemlock forest
K002 Cedar-hemlock-Douglas-fir forest
K003 Silver fir-Douglas-fir forest
K004 Fir-hemlock forest
K005 Mixed conifer forest
K008 Lodgepole pine-subalpine forest
K010 Ponderosa shrub forest
K011 Western ponderosa forest
K012 Douglas-fir forest
K013 Cedar-hemlock-pine forest
K014 Grand fir-Douglas-fir forest
K015 Western spruce-fir forest
K016 Eastern ponderosa forest
K017 Black Hills pine forest
K018 Pine-Douglas-fir forest
K019 Arizona pine forest
K020 Spruce-fir-Douglas-fir forest
K021 Southwestern spruce-fir forest
K022 Great Basin pine forest
K028 Mosaic of K002 and K026
K029 California mixed evergreen forest
K081 Oak savanna
K082 Mosaic of K074 and K100
K093 Great Lakes spruce-fir forest
K094 Conifer bog
K095 Great Lakes pine forest
K096 Northeastern spruce-fir forest
K097 Southeastern spruce-fir forest
K098 Northern floodplain forest
K099 Maple-basswood forest
K100 Oak-hickory forest
K101 Elm-ash forest
K109 Transition between K104 and K106
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Sullivan, Janet. 1995. Poecile atricapillus. In: Fire Effects Information System, [Online]. U.S. Department of Agriculture, Forest Service, Rocky Mountain Research Station, Fire Sciences Laboratory (Producer). Available: http://www.fs.fed.us/database/feis/

Habitat: Rangeland Cover Types

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More info on this topic.

This species is known to occur in association with the following Rangeland Cover Types (as classified by the Society for Range Management, SRM):

More info for the terms: shrubland, woodland

109 Ponderosa pine shrubland
110 Ponderosa pine-grassland
412 Juniper-pinyon woodland
422 Riparian
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Sullivan, Janet. 1995. Poecile atricapillus. In: Fire Effects Information System, [Online]. U.S. Department of Agriculture, Forest Service, Rocky Mountain Research Station, Fire Sciences Laboratory (Producer). Available: http://www.fs.fed.us/database/feis/

Management Considerations

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More info for the terms: forest, natural, shrubs

A review of Christmas Bird Count data for the Pacific Northwest showed
that most black-capped chickadee populations have apparently been stable
during the past 40 years. Of 49 locales reporting, 6 showed significant
declines (stations in Alaska, British Columbia, Montana, and Oregon), 5
showed significant increases (British Columbia, California, Montana, and
Washington), and the remaining 38 showed no overall change. It was
speculated that the "significant" increases and decreases may actually
represent anomalous data [4].

Long-term wildlife management should strive for sites with a mosaic of
age structures [28]. In northwestern Connecticut the clearcutting of 60
acres (24.4 ha) of red pine (Pinus resinosa) within a 321 acre (130 ha)
banding plot had no discernible effect on black-capped chickadee
populations in a long-term population study [17].

Forest clearing can increase edge, which is preferred (but not required)
black-capped chickadee habitat. Removal of snags and cull trees with
dead limbs decreases available nest sites for black-capped chickadees
[31,32], although black-capped chickadees are listed as tolerant of
habitat alteration [32].

Stauffer and Best [32] listed the following predicted effects of various
types of habitat alteration on black-capped chickadee populations:

removal of all wood vegetation: elimination
reduce woody vegetation to narrow strips: negative
woody canopy partly removed: no effect
woody canopy partly removed, shrubs and saplings thinned: negative
shrubs and saplings thinned: negative
snags removed: negative

Lack of cottonwood regeneration is detrimental to the long-term
stability of cavity-nesting bird populations [17].

In cold-winter areas, feeders often enhance black-capped chickadee
survival, particularly in disturbed areas where food supplies are
limited [31]. Nest boxes can increase available nest sites where
natural cavities are limited. Nest boxes are not readily used unless
they are half-filled with sawdust, apparently so that the birds have
something to excavate [30].

Black-capped chickadees are only rarely host to the brown-headed cowbird
(Molothrus ater) [31].

Black-capped chickadees are important predators of larch casebearer
larvae and pine sawfly larvae [5].
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Sullivan, Janet. 1995. Poecile atricapillus. In: Fire Effects Information System, [Online]. U.S. Department of Agriculture, Forest Service, Rocky Mountain Research Station, Fire Sciences Laboratory (Producer). Available: http://www.fs.fed.us/database/feis/

Occurrence in North America

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AK
AZ
CA
CO
CT
ID
IL
IN
IA
KS

KY
LA
ME
MD
MA
MI
MN
MO
MT
NV

NH
NJ
NM
NY
NC
ND
OH
OK
OR
PA

RI
SC
SD
TN
UT
VT
VA
WA
WV
WI

WY
DC













AB
BC
MB
NB
NF
NT
NS
ON
PE
PQ

SK
YT









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Sullivan, Janet. 1995. Poecile atricapillus. In: Fire Effects Information System, [Online]. U.S. Department of Agriculture, Forest Service, Rocky Mountain Research Station, Fire Sciences Laboratory (Producer). Available: http://www.fs.fed.us/database/feis/

Predators

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Natural predators of the black-capped chickadee include goshawk
(Accipiter gentilis), sharp-shinned hawk (A. striatus), Cooper's hawk
(A. cooperii), American kestrel (Falco sparverius), merlin (F.
columbarius), northern pygmy-owl (Glaucidium gnoma), and northern shrike
(Lanius excubiter). Around birdfeeders, the black-capped chickadee is
often preyed on by the domestic cat (Felis catus). Nest predators are
largely excluded by the small size of black-capped chickadee nest
entrance holes, but very small squirrels (Tamiascurius spp.) or
chipmunks (Tamias spp.) occasionally raid black-capped chickadee nests.
Weasels (Mustela spp.) and climbing snakes pose a threat to eggs and
nestlings [30].
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Sullivan, Janet. 1995. Poecile atricapillus. In: Fire Effects Information System, [Online]. U.S. Department of Agriculture, Forest Service, Rocky Mountain Research Station, Fire Sciences Laboratory (Producer). Available: http://www.fs.fed.us/database/feis/

Preferred Habitat

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More info for the terms: density, forest, selection, snag, species richness, tree, vine

Black-capped chickadees prefer relatively open sites near deep woods
[6]. They are usually more common near edges, but also occur in the
interior of wooded tracts [31]. In Iowa most observations of
black-capped chickadees were in floodplain woodlands and scrub; fewer
black-capped chickadees were observed in upland woodlands, wooded edges,
and savannah (in descending order of numbers of observations).
Black-capped chickadee observations were positively correlated with
sapling and tree species richness, sapling and tree size, and vertical
patchiness. There was a negative correlation with vine density and with
snag hardness [32]. In Saskatchewan black-capped chickadees were found
in aspen (Populus spp.) groves larger than 0.5 acre (0.2 ha) in area,
and did not occur in smaller groves [15]. In Montana foliage-insect
feeders including black-capped chickadees were observed most often in
uncut forests. Black-capped chickadees fed primarily where foliage
canopy was well developed above 26.4 feet (8 m) [24].

Riparian communities are important to black-capped chickadees and other
gleaners (birds which search vegetation for stationary prey). Emerging
aquatic insects are a particularly valuable food for gleaners. Mayflies
and stoneflies spend most of the daylight hours resting on low
vegetation near the stream channel. The density of gleaners (in this
area black-capped chickadees were the most abundant gleaners) is
positively correlated with emergence rates of aquatic insects [10].

In Colorado black-capped chickadee nest site selection was positively
associated with density of small trees; in Missouri and Tennessee,
black-capped chickadees are reported to prefer small trees and young
open forest [28].
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Sullivan, Janet. 1995. Poecile atricapillus. In: Fire Effects Information System, [Online]. U.S. Department of Agriculture, Forest Service, Rocky Mountain Research Station, Fire Sciences Laboratory (Producer). Available: http://www.fs.fed.us/database/feis/

Regional Distribution in the Western United States

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More info on this topic.

This species can be found in the following regions of the western United States (according to the Bureau of Land Management classification of Physiographic Regions of the western United States):

1 Northern Pacific Border
2 Cascade Mountains
5 Columbia Plateau
6 Upper Basin and Range
8 Northern Rocky Mountains
9 Middle Rocky Mountains
10 Wyoming Basin
11 Southern Rocky Mountains
12 Colorado Plateau
13 Rocky Mountain Piedmont
14 Great Plains
15 Black Hills Uplift
16 Upper Missouri Basin and Broken Lands
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bibliographic citation
Sullivan, Janet. 1995. Poecile atricapillus. In: Fire Effects Information System, [Online]. U.S. Department of Agriculture, Forest Service, Rocky Mountain Research Station, Fire Sciences Laboratory (Producer). Available: http://www.fs.fed.us/database/feis/

Taxonomy

provided by Fire Effects Information System Animals
The currently accepted scientific name for the black-capped chickadee is
Poecile atricapillus Linnaeus [2]. The 1957 A.O.U. checklist [1] (the
last one that included subspecies) listed nine subspecies of the
black-capped chickadee:

Poecile atricapillus atricapillus, eastern black-capped chickadee
P. a. practicus (Oberholser), Appalachian black-capped chickadee
P. a. bartletti Aldrich and Nutt., Newfoundland black-capped chickadee
P. a. turneri Ridgway, Yukon black-capped chickadee
P. a. septentrionalis Harris, long-tailed chickadee
P. a. occidentalis Baird, Oregon chickadee
P. a. fortuitus (Dawson and Bowles), Columbian black-capped chickadee
P. a. nevadensis (Linsdale), pallid black-capped chickadee
P. a. garrinus Behle, Rocky Mountain black-capped chickadee

Where the range of the black-capped chickadee overlaps that of other
chickadees (Poecile spp.) they are segregated by habitat. There are some
areas of breeding territory which the black-capped chickadee and the
Carolina chickadee (P. carolinensis) both use; in this area hybrids of
the two species commonly occur. There is some disagreement as to the
true status of the Carolina chickadee; it has been argued that it is a
subspecies of the black-capped chickadee rather than a separate species.
The most recent genetic evidence suggests that they are in fact separate
species. Hybrids with the mountain chickadee (P. gambeli) have also
been reported but are less common than black-capped chickadee-Carolina
chickadee hybrids [30].
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bibliographic citation
Sullivan, Janet. 1995. Poecile atricapillus. In: Fire Effects Information System, [Online]. U.S. Department of Agriculture, Forest Service, Rocky Mountain Research Station, Fire Sciences Laboratory (Producer). Available: http://www.fs.fed.us/database/feis/

Timing of Major Life History Events

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More info for the terms: altricial, formation, seed, torpor

Pair Formation: The peak period for pair formation is fall and is
associated with winter flock formation; winter flocks consist largely of
mated pairs. Even very young black-capped chickadees form pair bonds at
this time. A few pairs are formed in winter following mortality of
high-ranking members of the flock, and occasionally floaters
(low-ranking individuals unattached to a mate or a flock) establish new
pair bonds in spring [30,31].

Territory Establishment: Territories are established in spring, during
winter flock break-up; this period varies with area, year, and other
factors. Breeding territory boundaries are usually established 5 to 7
weeks before onset of egg-laying [30,31].

Nesting: Both the male and female excavate the nest hole, but the
female builds the nest. The cup-shaped nest consists of cottony plant
fibers, hairs, wool, moss, and leaves, and is lined with hair, plant
down, wool, and feathers [12].

Clutch: Eggs are laid from early April to mid-July depending on spring
weather and food availability [30]. Usually 1 egg is laid per day; the
average clutch size is from 6 to 8 eggs, ranging from 5 to 10. Eggs are
incubated for 12 to 13 days by the female, who is fed by the male [38].
All eggs usually hatch within 12 to 30 hours of each other, usually in
the order laid [31]; nestlings are present from early May to late July
[30,31].

Development of Young: Black-capped chickadees are altricial; newly
hatched young are blind and nearly naked. They have pinfeathers by
about day 9, and usually fledge on day 16. When nests are disturbed,
fledglings may leave the nest early, sometimes as early as 12 days.
Fledglings are fed by the parents for 2 to 4 weeks (3-4 weeks is
typical) [30,31].

Longevity: Age at first breeding is typically less than 1 year,
although some individuals may not breed until they are 1 or 2 years old.
The average lifespan of black-capped chickadees is approximately 2.5
years; however, 5-year-old birds were not uncommon in northwestern
Connecticut [17]. The longest lived black-capped chickadee on record
was at least 12 years 5 months at the time of last banding [31].

Mortality: Black-capped chickadees are fairly cold hardy; the majority
of black-capped chickadee mortality is believed to be caused by winter
malnutrition, which reduces the ability to withstand cold weather and
resist disease. There have been few major outbreaks of diseases in
black-capped chickadee populations and there are relatively few nest
parasites [31].

Wintering: Wintering flocks of black-capped chickadees usually consist
of four to eight individuals [9]. Black-capped chickadee residence in
cold climates is made possible by night torpor, a regulated hypothermia
which allows black-capped chickadees to survive cold nights with minimum
energy loss [31].

Seasonal Movements: Long-distance movements are usually only undertaken
by black-capped chickadees less than 1 year old. However, large numbers
of black-capped chickadees emigrate at irregular intervals of about 2
years. These movements are more properly termed irruptions than
seasonal migrations. Factors influencing irruptions, particularly in
the eastern portions of the black-capped chickadee range, include
fluctuation in northern seed crops and unusually high recruitment rates.
Fall movements tend to be south or southwest; spring movements are
usually northward but are sometimes aimless [31]. Movement over water
is avoided or undertaken only with great hesitation [30,38].
license
cc-publicdomain
bibliographic citation
Sullivan, Janet. 1995. Poecile atricapillus. In: Fire Effects Information System, [Online]. U.S. Department of Agriculture, Forest Service, Rocky Mountain Research Station, Fire Sciences Laboratory (Producer). Available: http://www.fs.fed.us/database/feis/

Use of Fire in Population Management

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More info for the term: fire regime

NO-ENTRY

FIRE REGIMES :
Find fire regime information for the plant communities in which this
species may occur by entering the species name in the FEIS home page under
"Find FIRE REGIMES".
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cc-publicdomain
bibliographic citation
Sullivan, Janet. 1995. Poecile atricapillus. In: Fire Effects Information System, [Online]. U.S. Department of Agriculture, Forest Service, Rocky Mountain Research Station, Fire Sciences Laboratory (Producer). Available: http://www.fs.fed.us/database/feis/

Black-capped chickadee

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The black-capped chickadee (Poecile atricapillus) is a small, non-migratory, North American songbird that lives in deciduous and mixed forests. It is a passerine bird in the tit family, the Paridae. It is the state bird of Massachusetts and Maine in the United States, and the provincial bird of New Brunswick in Canada. It is well known for its ability to lower its body temperature during cold winter nights, its good spatial memory to relocate the caches where it stores food, and its boldness near humans (sometimes feeding from the hand).

Taxonomy

In 1760, French zoologist Mathurin Jacques Brisson included a description of the black-capped chickadee in his Ornithologie based on a specimen collected in Canada. He used the French name La mésange a tête noire de Canada and the Latin Parus Canadensis Atricapillus.[2] Although Brisson coined Latin names, these do not conform to the binomial system and are not recognised by the International Commission on Zoological Nomenclature.[3] When in 1766, Swedish naturalist Carl Linnaeus updated his Systema Naturae for the 12th edition, he added 240 species that had been previously described by Brisson.[3] One of these was the black-capped chickadee. Linnaeus included a brief description, coined the binomial name Parus atricapillus and cited Brisson's work.[4] The type location was subsequently restricted to the site of Quebec in Canada.[5] The specific epithet atricapillus is Latin for 'black-haired' from ater 'black' and capillus 'hair of the head'.[6]

Though originally placed in the genus Parus with most other tits, mtDNA cytochrome b sequence data and morphology suggest that separating Poecile more adequately expresses these birds' relationships.[7] The genus Poecile had been introduced by German naturalist Johann Jakob Kaup in 1829.[8] Molecular phylogenetic studies have shown that the black-capped chickadee is sister to the mountain chickadee (Poecile gambeli).[9][10]

At one time, the black-capped chickadee was considered by some to be conspecific with the willow tit of Eurasia, due to their very similar appearance. This is reflected in an older version of the Peterson Field Guide for the Birds of Britain and Europe, which states "N Am. Black-Capped Chickadee" as an alternate name for the willow tit. In fact, the willow tit, black-capped chickadee, marsh tit, and Carolina chickadee are all very similar to one another in appearance. Nine subspecies are recognised.[11]

Description

Black-capped chickadee clinging to a wire

The black-capped chickadee has a black cap and "bib" with white sides to the face. Its underparts are white with rusty brown on the flanks. Its back is gray and the tail is normally slate gray. This bird has a short dark beak of 8–9.5 mm (0.31–0.37 in), short, rounded wings 63.5–67.5 mm (2.50–2.66 in), a tarsus of 16–17 mm (0.63–0.67 in), and a long tail at 58–63 mm (2.3–2.5 in).[12] Its total body length is 12–15 cm (4.7–5.9 in), wingspan is 16–21 cm (6.3–8.3 in), and body mass is 9–14 g (0.32–0.49 oz).[13] Sexes look alike, but males are slightly larger and longer than females.

Although range can generally be used to separate them, the black-capped chickadee is very similar in appearance to the Carolina chickadee. The black-capped is larger on average, but this cannot be used reliably for identification. The most obvious difference between the two is in the wing feathers. In the black-capped chickadee, the wing feathers have white edges that are larger and more conspicuous than those of the Carolina chickadee. The latter is often mistaken for black-capped chickadees with feather dystrophy, which sometimes affects the appearance of the primary feathers making them look slimmer, a phenomenon caused by illnesses such as fatty liver disease in malnourished birds.

Overall, the Carolina appears slightly paler colored, whereas the flanks of the black-capped can appear to have a trace of off-yellow or rusty coloration. Also, the black-capped generally has a more "ragged" looking black bib, whereas the bib of the Carolina has a more smooth-edged look. These subtle features are often even more vague in populations around where the black-capped and Carolina overlap in range (possibly the result of hybrids) and the two cannot always be distinguished as two species. The two species were formerly thought to be easily distinguished by call, but they often learn each other's vocalizations where their ranges overlap (their point of overlap is a narrow band that runs along the east-central United States, with the black-capped chickadee to the north). A bird located near the zone of overlap that sings both songs, or sings "odd-sounding" songs, cannot be positively identified solely by voice in the field.[14]

Vocalization

Black-capped chickadee, Iona Beach Regional Park

The vocalizations of the black-capped chickadee are highly complex.[15] Thirteen distinct types of vocalizations have been classified, many of which are complex and can communicate different types of information. Chickadees' complex vocalizations are likely an evolutionary adaptation to their habitat: they live and feed in dense vegetation, and even when the flock is close together, individual birds tend to be out of each other's visual range.

One of the most recognizable sounds produced, particularly by the males, is the two-note fee-bee song. It is a simple, clear whistle of two notes, identical in rhythm, the first roughly a whole-step above the second.[16] The range of frequencies at which this song starts from varies; the complete frequency range spans roughly 1 kHz. Within this range, male chickadees can sing at various tones. The average starting frequency is around 4000 Hz. A decrease of roughly 200 Hz occurs when the first note (fee) is sung, and then another decrease around 400 Hz takes place between the end of fee and the beginning of bee. In spite of these multiple changes in frequency, though, anybody listening to the song only hears a pure, high-frequency tone.[17] This is distinguished from the Carolina chickadee's four-note call fee-bee fee-bay; the lower notes are nearly identical but the higher fee notes are omitted, making the black-capped song like bee bay. The males sing the song only in relative isolation from other chickadees (including their mates). In late summer, some young birds sing only a single note.[18]

Some fee-bee calls of chickadees at various distances.

NOTE: The chick-a-dee-dee song in the background at 0:05

Problems playing this file? See media help.

A recent study found that female fee-bee songs have both similarities with and differences from male fee-bee songs.[19][20] Both sexes sometimes make a faint version of the song, and this appears to be used when feeding young.[18] When males are out in the wild, they sing this song to defend their territory or attract a mate.[19][20] It is rare, but a few accounts have been given of females singing a louder version of the fee-bee song when out alone in the wild, too. The black-capped chickadee is a monomorphic species, so distinguishing males and females based solely on their singing is difficult. A bioacoustic analysis performed on both male and female songs revealed that male fee-bee singing fluctuates more, and the absolute amplitude of both sexes is the same. The fee glissando varies far more in females, which makes identifying each sex easier. The purpose of the female fee-bee song is unknown.[20]

The most familiar call is the chick-a-dee-dee-dee, which gave this bird its name. This simple-sounding call is astonishingly complex.[18] Scientists have been studying it since the mid-1970s. It is produced by both males and females year-round.[17] It has been observed to consist of up to four distinct units which can be arranged in different patterns to communicate information about threats from predators and coordination of group movement: A, B, C, and D. These four notes only ever appear in this consecutive order[21][18] with each preceding note blending into the next.[17] Not all four notes may appear in the call, though.[21] Like other sounds the chickadee produces, it may be heard in multiple variations. The A and B notes are almost identical to one another in both frequency and duration. The black-capped chickadee possesses the ability to quickly notice the difference between these two notes. As for the C and D notes, no real similarity is seen between them.[17] The C note fluctuates from low to high then back to low, whereas the D note has a constant frequency. While not confirmed, one study found evidence of a function behind the C and D notes. To be able to recognize the difference between a member of the same species and a potential predator, the D note is required. The C note is needed to locate food.[21]

Neither individual notes nor groups of notes have an equal probability of appearing in the chick-a-dee-dee song. Its syntax form may take on several different structures, but the two most commonly heard are [A][D] and [B][C][D]. (The brackets are placed around each note to show that it may be repeated more than once.) Any calls that contain the D note more frequently than others are more commonly heard.[17] A recent study of the call showed that the number of dees indicates the level of threat from nearby predators. In an analysis of over 5,000 alarm calls from chickadees, alarm calls triggered by small, dangerous raptors had a shorter interval between chick and dee and tended to have extra dees, typically four instead of two. In one case, a warning call about a pygmy owl – a prime threat to chickadees – contained 23 dees. The Carolina chickadee makes a similar call, which is faster and higher-pitched.[18]

Some 'gargles', then a minute of singing

NOTE: American robin singing in background

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These chickadees make a number of other calls and sounds, such as a gargle noise usually used by males to indicate a threat of attacking another male, often when feeding. This call is also used in sexual contexts.[19] Black-capped chickadees develop the gargle noise as a result of learning that starts soon after birth and continues through to adulthood.[17] This noise is among the most complex of the calls, containing two to 9 of 14 distinct notes in one population that was studied.[19] It only lasts for about half a second.

Social learning, in particular, is largely influential to the development of this sound. Beginning 30 to 35 days after birth, strings of low-amplitude precursor or sub-gargles are produced for about a minute. At this time, the young have several close interactions with their family; they learn to produce such sounds by listening to their parents and siblings. Three chickadee populations were observed at three different sites over 8 years, and all of them produced vocalizations that were very similar to one another. Strings of juvenile sub-gargles are almost perfectly continuous and both low and unstable in frequency, yet lacking multiple syllables. When their vocal abilities are fully developed, a stable frequency is produced and a variety of syllables is heard that vary in length.[17]

Chickadees in an environment with ambient noise at the same frequencies as their songs have developed an evolutionary adaptation that enables them to adjust the frequency of their songs much quicker to effectively communicate with the surrounding population. The fee-bee songs of several male black-capped chickadees were monitored to identify their particular frequency. In one particular study, a series of both masking and nonmasking tones was played to multiple male chickadees at various locations to observe how they responded to interfering and noninterfering signals. When interacting with conspecifics close by, the males matched their frequencies, but when the surrounding environment was noisy with other species, the males adapted by increasing the frequency of their songs. The males responded quickly to the masking tones by raising their song frequencies. Another study, though, showed that male chickadees sometimes intentionally match the tones of competing conspecifics as a way of showing aggression. Dominant males in a population often compete with lower-ranked males; one is not at a greater or lesser advantage than the other. Singing contests are a way male chickadees decide who in a population gets to mate. When a male loses a contest, particularly a higher-ranking male in the population, he will often have difficulty finding a mate.[19]

Behaviour and ecology

Diet and foraging

Chickadees will take seeds from feeders and trays over to a tree branch to hammer them open

Insects (especially caterpillars) form a large part of their diet in summer. The birds hop along tree branches searching for food, sometimes hanging upside down or hovering; they may make short flights to catch insects in the air. Seeds and berries become more important in winter, though insect eggs and pupae remain on the menu. Black oil sunflower seeds are readily taken from bird feeders. The birds take a seed in their beak and commonly fly from the feeder to a tree, where they proceed to hammer the seed on a branch to open it.

Like many other species in the family Paridae, black-capped chickadees commonly cache food, mostly seeds, but sometimes insects, also.[22] Items are stored singly in various sites such as bark, dead leaves, clusters of conifer needles, or knothole. Memory for the location of caches can last up to 28 days.[23] Within the first 24 hours, the birds can even remember the relative quality of the stored items.[24]

Foraging behaviour in the winter tends to decrease due to the changing weather. Such behaviour is largely influenced by wind and temperature. When wind speeds are higher, black-capped chickadees avoid exposure to such conditions by flying lower where vegetation offers a degree of protection, and when the temperature decreases, they search for food less frequently.[25]

Chickadee at feeder

In parts of the black-capped chickadee's range with very cold winters, such as Minnesota, survival rates are affected by access to supplemental food. Chickadees with access to bird feeders are twice as likely to survive the winter than those without access to this supplemental food. This difference in survival rates occurs primarily during months with severe weather when the temperature drops below −18 °C (0 °F) for more than five days.[26] In Pennsylvania, with milder winters on the southern edge of their range, differences between populations with and without feeders suggest that feeders influence movements of chickadees rather than actual survival.[27]

At bird feeders, black-capped chickadees tolerate human approach to a much greater degree than other species do. In fact, during the winter, many individuals accustomed to human habitation readily accept seed from a person's hand.

Chickadee feeding from hand

Metabolism

On cold winter nights, these birds can reduce their body temperature by as much as 12 °C (from their normal temperature of about 42 °C) to conserve energy.[28][29] Such a capacity for torpor is not very common in birds. Other bird species capable of torpor include the common swift (Apus apus), the common poor-will (Phalaenoptilus nuttallii), the lesser nighthawk (Chordeiles acutipennis), and various species of hummingbirds.

Movements

These birds are permanent residents, but sometimes they move south within their range, and even outside of it, in the fall or winter.

During the winter, chickadees often flock together. Many other species of birds – including titmice, nuthatches, and warblers – can often be found foraging in these flocks. Mixed flocks stay together because the chickadees call out whenever they find a good source of food. This calling-out forms cohesion for the group, allowing the other birds to find food more efficiently. When flocking, black-capped chickadees soon establish a rigid social hierarchy. In such hierarchies, males usually rank over females, and older birds over juveniles.[30]

Black-capped chickadees sleep in thick vegetation or in cavities, usually singly, though they may occasionally roost clumped together.[31] Their sleeping posture is with the beak tucked under the scapular (shoulder) feathers.

Their flight is slightly undulating with rapid wing beats. Flight speed is about 20 km/h (12 mph).[32]

Molt

Chickadees molt once a year; no prenuptial molt occurs in the spring. The postjuvenal molt at the end of the first summer of life is partial, involving only the body feathers and wing coverts. Thereafter, the postnuptial molts at the end of each reproductive season are always complete, involving all feathers.

Breeding

A black-capped chickadee excavating a nest cavity in a dead tree

The black-capped chickadee nests in a hole in a tree, 1–7 m (3.3–23.0 ft) above ground. The pair either excavates the hole together, or uses a natural cavity, or sometimes an old woodpecker nest. This species will also nest in a nesting box. The nesting season is from late April through June. The nest is built by the female only. It consists of a base of coarse material such as moss or bark strips, and lining of finer material such as mammal hair. Eggs are white with fine dots of reddish brown concentrated at the larger end. On average, eggs are 1.52 cm × 1.22 cm (0.60 in × 0.48 in). Clutch size is six to eight eggs. Incubation lasts 11–14 days and is by the female only, which is fed by the male. If an unusual disturbance occurs at the nest entrance, the incubating female may utter an explosive hiss, like that of a snake, a probable adaptation to discourage nest predators.[33]

Hatchlings are altricial, naked with their eyes closed. Nestlings are fed by both sexes, but are brooded by the female only (when the male brings food to her, which she passes on to the young). Young leave the nest 12–16 days after hatching, in great part because the parents start presenting food only outside the nest hole. The young are still fed by the parents for several weeks, but are capable of catching food on their own within a week after leaving the nest.

Black-capped chickadees usually breed only once a year, but second broods are possible if the first one is lost. First breeding is at one year of age. Maximum recorded lifespan is 12 years, but most individuals live only half that long.[34]

Black-capped chickadees are socially monogamous, and males contribute greatly to reproduction. During the laying and incubation periods, males feed their partners extensively. When the nestlings hatch, males are the primary providers, but as the nestlings grow, females become the main caretakers. Females prefer dominant males, and greater reproductive success is closely related to the higher ranking of the male.[35]

Black-capped chickadees may interbreed with Carolina chickadees or mountain chickadees where their ranges overlap. Interbreeding with boreal chickadees has also been documented, though it is more rare.[36]

Dominance hierarchy

During the winter, the species forms flocks through which dominance hierarchies can be easily observed. Dominance hierarchies play an important role in determining the social behaviors among the birds in these flocks. Positive correlates to higher social rankings include territory size, body condition, singing rate, and reproductive success.[37] The hierarchies are linear and stable; once a relationship is established between two birds, it stays the same for many years. In general, older and more experienced birds are dominant over younger ones, and males are dominant over females.[35] Dominant and subordinate members differ in their foraging strategies and risk-taking behaviors. Dominant individuals control access to preferred resources and restrict subordinates to foraging in novel, riskier, or suboptimal environments. Subordinate individuals are often observed foraging in the outermost tree parts that are more prone to predators, while dominant individuals forage low and close to the tree trunk.

In experiments, subordinate individuals display less neophobia when approaching novel foods and objects, compared to their dominant counterparts. Subordinate individuals are also more likely to enter novel environments than their dominant counterparts. This is similar to subordinate primates, which feed on novel food more readily than the dominant individuals because they are more used to eating suboptimal and unfamiliar food. No difference is observed in ability to learn novel foraging tasks between dominant and subordinate individuals.[37]

State and provincial bird

The black-capped chickadee is the state bird of Maine and Massachusetts and the provincial bird of New Brunswick. In 2014, the black-capped chickadee was named the official bird of Vancouver for 2015. In 2022 the black-capped chickadee was named the official bird of Calgary, Alberta. The bird is prominently featured on the standard Maine license plate, as well as welcome signs on major roadways in Massachusetts.

Conservation

The IUCN classifies the black-capped chickadee as least concern due to its wide distribution and large populations.[1] In Alaska and Washington, and parts of western Canada, black-capped chickadees are among a number of bird species affected by an unknown agent that is causing beak deformities, which may cause stress for affected species by inhibiting feeding ability, mating, and grooming. Black-capped chickadees were the first affected bird species, with reports of the deformity beginning in Alaska in the late 1990s, but more recently the deformity has been observed in close to 30 bird species in the affected areas.[38]

References

  1. ^ a b BirdLife International (2017). "Poecile atricapillus". IUCN Red List of Threatened Species. 2017: e.T22711716A118687681. doi:10.2305/IUCN.UK.2017-3.RLTS.T22711716A118687681.en. Retrieved 12 November 2021.
  2. ^ Brisson, Mathurin Jacques (1760). Ornithologie, ou, Méthode contenant la division des oiseaux en ordres, sections, genres, especes & leurs variétés (in French and Latin). Vol. 3. Paris: Jean-Baptiste Bauche. pp. 553–555, Plate 29 fig 1. The two stars (**) at the start of the section indicates that Brisson based his description on the examination of a specimen.
  3. ^ a b Allen, J.A. (1910). "Collation of Brisson's genera of birds with those of Linnaeus". Bulletin of the American Museum of Natural History. 28: 317–335. hdl:2246/678.
  4. ^ Linnaeus, Carl (1766). Systema naturae : per regna tria natura, secundum classes, ordines, genera, species, cum characteribus, differentiis, synonymis, locis (in Latin). Vol. 1, Part 1 (12th ed.). Holmiae (Stockholm): Laurentii Salvii. p. 341.
  5. ^ Paynter, Raymond A. Jr, ed. (1986). Check-list of Birds of the World. Vol. 12. Cambridge, Massachusetts: Museum of Comparative Zoology. p. 82.
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Black-capped chickadee: Brief Summary

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The black-capped chickadee (Poecile atricapillus) is a small, non-migratory, North American songbird that lives in deciduous and mixed forests. It is a passerine bird in the tit family, the Paridae. It is the state bird of Massachusetts and Maine in the United States, and the provincial bird of New Brunswick in Canada. It is well known for its ability to lower its body temperature during cold winter nights, its good spatial memory to relocate the caches where it stores food, and its boldness near humans (sometimes feeding from the hand).

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