DOCSLIB.ORG

(Poecile Atricapillus) and Carolina Chickadee (P

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text

Load more

Scholars Crossing Faculty Publications and Presentations Department of Biology and Chemistry 2005 Reproductive Success Across the Black-capped Chickadee (Poecile atricapillus) and Carolina Chickadee (P. carolinensis) Hybrid Zone in Ohio C. L. Bronson Thomas C. Grubb, Jr. Gene D. Sattler Liberty University, [email protected] Michael J. Braun Follow this and additional works at: https://digitalcommons.liberty.edu/bio_chem_fac_pubs Recommended Citation Bronson, C. L.; Grubb, Jr., Thomas C.; Sattler, Gene D.; and Braun, Michael J., "Reproductive Success Across the Black-capped Chickadee (Poecile atricapillus) and Carolina Chickadee (P. carolinensis) Hybrid Zone in Ohio" (2005). Faculty Publications and Presentations. 35. https://digitalcommons.liberty.edu/bio_chem_fac_pubs/35 This Article is brought to you for free and open access by the Department of Biology and Chemistry at Scholars Crossing. It has been accepted for inclusion in Faculty Publications and Presentations by an authorized administrator of Scholars Crossing. For more information, please contact [email protected]. The Aiik 122(3):759-772, 2005 © The Americiin Ornithologists' Union, 2005. ^L Printed in USA. REPRODUCTIVE SUCCESS ACROSS THE BLACK-CAPPED CHICKADEE {POECILE ATRICAPILLUS) AND CAROLINA CHICKADEE (P. CAROLINENSJS) HYBRID ZONE IN OHIO C. L. BRONSON,' ' THOMAS C. GRUBB, JR./ GENE D. SATTLER,' AND MICHAEL J. 'Dqmrtiticnt of Evolution. Ecohi^y, and Organlsmal Biology, The Ohio Staff Uiiivcrsifii, 318 West Tllli AveiUK Columims, Ohio 43210. USA: 'Di-piut)Jiciit of Biolo;^y mid Cliemistri/, Libert]/ Uniz'crsity, 1971 University Boiilcvnrii, i\/mhbuy^, Vir^iniiJ 24502, USA; mid iciit ofVcrldinUe Zoolo;^y, Nntioiuil Miisciofi ofNntiirnl History, Siiiillisoniiin Institution, 4210 Silver tliil Roud. Siiiliand, Mmyhmd 20746, USA CT. —Black-capped Chickadees (/'(ifc;7fi7fr;L"(7/)/7/i/s) and Carolina Chickadees (P. cawliueusis) hybridize in an east-west band from New Jersey to Kansas. Within the past century, the Ohio portion of this hybrid /one and the Carolina Chickadee range to the south have been moving northward, whereas the Black-capped Chickadee range has retracted. In Ohio, we characterized the genetic composition of the hybrid zone using five diagnostic molecular loci. Although there was no evi- dence of assortative mating in the center of the hybrid zone, we found a relative pau- city of genetically intermediate breeding females as compared with breeding males. That suggests viability selection against female hybrids, in line with Haldane's rule. On the basis of reproductive variables (number of nestlings, reproductive success), we found a decrease in productivity of breeding pairs in the hybrid zone that is significantly and positively related to their probability of producing homozygous offspring at each autosomal or sex-linked locus. We also found that the decrease in productivity was significantly and positively related to the genetic composition of the male of the pair {i.e. pure male chickadees more productive). These data strongly suggest that hybrids are at a selective disadvantage. Because the zone of reduced reproductive success was considerably narrower than the zone of introgression, our results demonstrate that genetic introgression is occurring in the face of substantial selection against hybrids. Received 16 April 2004, accepted W jmniary 2005. Key words: Black-capped Chickadee, Carolina Chickadee, genetic indices, hybrid zone, Poecile iitricapillus, Poecile carolinensis, reproductive success. Exito Reproductivo a traves de la Zona de Hibridacion de Poecile ntricapillus y P. carotiiicnsis en Ohio RESUMEN. —Las especies Poecile atricapillus y P. caroliucnsis hibridan en una franja orientada de este a oeste desde New jersey hasta Kansas. Durante el ultimo siglo, la seccion de Ohio de esta zona de hibridacion y el rango de P. carolinensis al sur de esta se han desplazado hacia el norte, mientras que ei rango de P. atricapillus se ha contraido. En este estudio, caracterizamos la composicion genetica de la zona de hibridacion en Ohio usando cinco loci moleculares diagnosticos. Aunque no cxistio evidencia de apareamiento asociativo en el centro de la zona de hibridacion. 'Present address: Department of Internal Medicine, Division of Immunology, The Ohio State University, 473 West Twelfth Avenue, Columbus, Ohio 43210, USA. E-mail; bronson.3("osu.odti 759 760 BRON-ION Lr AL. [Auk, Vol. 122 encontramos una relativa carencia de hembras reproducHvas geneticamente intermedias en comparacion con los machos reproductivos. Esto sugiere la existencia de seleccion por viabilidad en contra de las hetnbras hibridas, lo que concuerda con la regla de Haldane. Con base en variables reproductivas (nt'imero de pichones, exito reproductivo), encontramos una disminucion en la productividad de las parejas en la zona de hibridacion que esta significativa y po.sitivamente rclacionada con SLi probabilidad de producir crias homocigoticas en cada locus autosomico o ligado a! sexo. Tambien encontramos que la disminucion en la productividad estuvo significativa y positivamertte relacionada con la composicion genetica del macho de la pareja (i.e. los machos puros fueron mas prodiictivos). Estos datos sugieren fuertemente que los hibridos se encuentran en desventaja seloctiva. Debido a que la zona de exito reproductivo reducido fue considerablemente mas estrecha que la zona de introgresion, nuestros resultados demuestran que a pesar de que existe seleccion en contra de los hibridos, esta sucediendo introgresion genetica. ZONE ij-iNAMics is a fertile area for -100 km farther north, approximately along U.S. research on natural selection and speciation, Highway 30 (Grubb et al. 1994, Peterjohn 2001). because of the exchange of genes between In other words, the Black-capped Chickadee distinct groups (Harrison 1990, 1993; Hewitt distrihtition has been receding northward. 1988). Within birds (see review in Grant and The chickadee hybrid zone is quite narrow, Grant 1992), the hybridization of many North with genetic cline widths on the order of 20 American species has been studied (for review to 30 km (Sattler 1996, Sattler and Braun 2000). of Great Plains hybrid zones, see Rising 1983). Given the likely age of contact and the dispersal For example, Black-Capped Chickadees (Poecile capabilities ot chickadees (Weise and Meyer atricapillus) and Carolina Chickadees {P. caroli- 1979), the narrow cline widths suggest that ncnsis) are known to hybridize in many areas some sort of selection may oppose introgression along their common border (e.g. Kansas: across their hybrid zone {Barton and Gale 1993). Rising 1968; Missouri: Braun and Robbins 1986, In Illinois, Brewer (1963) found that hatching Sawaya 1990; Illinois: Brewer 1963; Ohio: Grubb success was lower in the chickadee hybrid zone et al. 1994; Virginia: Johnston 1971, Sattler 1996, than for either parental species, but he had Sattler and Braun 2000; West Virginia: Sattler complete data on only four hybrid zone nests. 1996, Sattler and Braun 2000; Pennsylvania: He attributed the reduction to infertility and Ward and Ward 1974, Cornell 2001). Because retarded development of eggs. these species may not be sister taxa (Gill et al. We wished to study the relationship between 1989, 1993; but see Sattler and Braun 2000 for hybridization and reproductive success in greater discussion), only limited hybridization might detail. The objectives here were to employ genetic be expected. markers to map one segment of the hybrid zone In North America, except for a peninsular in north-central Ohio and to examine the rela- distribution in the Appalachian MoLintains, tionship between genetic composition of the the Black-capped Chickadee distribution abuts parents and reproductive success. the north edge of the Carolina Chickadee di.s- tribution (Mostrom ct al. 2002). In the southern Appalachians, Black-capped Chickadees are often found at high elevations, and Carolina Field nicthods. —The area of the hybrid zone Chickadees at lower elevations. In the early studied within Ashland County, Ohio (4O''5O'N, 1880s, Carolina Chickadees were described as 82"15'W) was bounded by County Road 700 on permanent residents only within the southern the north. State Route 95 on the south. State portion of Ohio (Wheaton 1882). By the late Route 89 on the west, and County Road 175 on 1930s, the hybrid /one was probably located the east (Fig. 1). The study area was 23 km from acrt)ss the middle of the state, approximately in north to south and 6 km from west to east. The the location of the east-west U.S. Interstate 70 landscape was about equally divided among (Trautman 1940). Currently, the zone is located pasture, row crops, and woodlands. To limit the July 2005] clive Success in tli/hriii Zone 761 overlap of points in Figures 2-4, the 21 sampling In November of 1993 and 1994, we placed locations were condensed to 10 pooled s^imples remote-controlled Feeder traps (Pierce and based on similar latitudes. Frt>m north to south, Grubb 1979) filled with sunflower seeds within the groupings were a-b, c, d, e, g-f, h, i-m, n-p, privately owned woodlands af all study sites q-r, and s-u (Fig. 1). within the zone. From December through CR700 5- 10- km 15- 25- FIG. 1. Tbe study transect (light gray area) in Ashland County, Ohio, indicating sampling points (letters) and major roadways. 762 BKONSON hi' AL. [Auk, Vol. 122 February, we trapped or mist-netted chickadees and Pst l/mtDNA) into a genetic index (Cl) visiting each feeder. In late February, we placed for each individual, calculated as tbe number artificial nesting snags (Grubb and Bronson of Carolina Chickadee alleles divided by tbe 1995) in the woodlands and monitored them total number of alleles examined (Bronson et al. through the chickadee breeding season (to the 2003). Tbere are two alleles for eacb autosomal end of June). marker and one for tbe mtDNA haplotype. Tbe At the time of capture, we banded each bird Z-linked marker has two alleles in males and with a federal aluminum band and a colored one in females (females are tbe heterogametic leg streamer (Sullivan 1984) tor individual sex in birds).
Recommended publications
  • Call of the Chickadee

    Call of the Chickadee

    December, the Doorway to Winter: Call of the Chickadee “Chicka-dee-dee-dee”- this beloved little bird sings its name for the whole world to hear. Black-capped chickadees (Poecile atricapillus) are small plump birds, just 4 to 5 inches in length with 8-inch wingspans. Both males and females look alike with soft gray backs and tails, white cheeks, a white chest and belly, and a splash of buff-colored feathers below the wings. Their most distinctive characteristics are their black caps and black masks and throats. The chickadees along with their cousins the Carolina chickadees and tufted titmice are members of a passerine family of birds called Paridae and are often referred to as Parids. They are common sites in the winter landscape as they are non-migratory and stay in their habitats year-round. The range of black-capped chickadees and Carolinas overlap and sometimes the birds interbreed so identification can be confusing. Black-capped chickadees are generally a northern species and are the more common bird here at Duke Farms. Black-capped chickadees live in mixed deciduous and coniferous forests, but readily visit bird feeders in suburban backyards. The black-capped chickadee is found from Alaska east through Canada and throughout the upper two-thirds of the United States. They are year-round residents wherever they live. In winter Chickadees often form small flocks that may include other birds like titmice and nuthatches. They flit from tree branch to tree branch gleaning the dead insects, spider eggs, seeds, mosses and berries from bark and trees. Chickadees often collect and cache their food for future meals, sometimes storing food in holes in snags or under bark or lichen.
  • Cavity Nesting Birds Guild

    Cavity Nesting Birds Guild

    Supplemental Volume: Species of Conservation Concern SC SWAP 2015 Cavity Nesting Birds Guild Carolina Chickadee Poecile carolinensis Carolina Wren Thryothorus ludovicianus Chimney Swift Chaetura pelagica Downy Woodpecker Picoides pubescens Pileated Woodpecker Dryocopus pileatus Purple Martin Progne subis Red-bellied Woodpecker Melanerpes carolinus Red-headed Woodpecker Melanerpes erythrocephalus NOTE: The Red-cockaded Woodpecker is discussed in its own species account. Contributor (2013): Paige Koon (SCDNR) DESCRIPTION Taxonomy and Basic Description Red-bellied Woodpecker, David Brezinski/USFWS The cavity nesting guild includes a diverse group of birds that all require the use of cavities or crevices as nesting locations. The most well-known cavity- nesting species are woodpeckers (family Picidae), and this account addresses 4 species: Downy Woodpecker, Pileated Woodpecker, Red-bellied Woodpecker, and Downy Woodpecker, Dan Red-headed Woodpecker. The remaining birds in the Sudia/USFWS Cavity Nesting Birds Guild included in this account are from the families Paridae (Carolina Chickadee), Troglodytidae (Carolina Wren), Apodidae (Chimney Swift), and Hirundinidae (Purple Martin). The Downy Woodpecker is the smallest of the 4 woodpeckers discussed here. It is distinguished in appearance by its black and white coloration, white breast, white striping on the head, and white on Pileated Woodpecker, Mark the back between the wings. Adult males have a Musselman/USFWS smudge of red across the back of their head. The Pileated Woodpecker, the largest in North America, is a striking bird with a red crest and solid-black back. In flight, the white on the underside of its wings is readily apparent. The Red-bellied Red-headed Woodpecker, Woodpecker is a medium-sized woodpecker that is Dave Menke/USFWS distinguished by its zebra-striped wings and back, and red “mullet”.
  • Phenotypic Flexibility in Passerine Birds Seasonal Variation of Aerobic

    Phenotypic Flexibility in Passerine Birds Seasonal Variation of Aerobic

    Journal of Thermal Biology 36 (2011) 430–436 Contents lists available at ScienceDirect Journal of Thermal Biology journal homepage: www.elsevier.com/locate/jtherbio Phenotypic flexibility in passerine birds: Seasonal variation of aerobic enzyme activities in skeletal muscle Eric T. Liknes 1, David L. Swanson n Department of Biology, University of South Dakota, 414 E. Clark St., Vermillion, SD 57069, USA article info abstract Article history: Improved winter cold tolerance is widespread among small passerines resident in cold climates and is Received 1 March 2011 generally associated with elevated summit metabolic rate (Msum ¼maximum thermoregulatory metabolic Accepted 26 July 2011 rate) and improved shivering endurance with increased reliance on lipids as fuel. Elevated Msum and Available online 2 August 2011 improved cold tolerance may result from greater metabolic intensity, due to mass-specific increase in Keywords: oxidative enzyme capacity, or increase in the masses of thermogenic tissues. To examine the mechanisms Phenotypic flexibility underlying winter increases in Msum, we investigated seasonal changes in mass-specific and total activities Seasonal acclimatization of the key aerobic enzymes citrate synthase (CS) and b-hydroxyacyl CoA-dehydrogenase (HOAD) in Citrate synthase pectoralis, supracoracoideus and mixed leg muscles of three resident passerine species, black-capped b-Hydroxyacyl CoA-dehydrogenase chickadee (Poecile atricapillus), house sparrow (Passer domesticus), and white-breasted nuthatch Poecile atricapillus (Sitta carolinensis). Activities of CS were generally higher in winter than in summer muscles for chickadees Passer domesticus Sitta carolinensis and house sparrows, but not nuthatches. Mass-specific HOAD activity was significantly elevated in winter relative to summer in all muscles for chickadees, but did not vary significantly with season for sparrows or nuthatches, except for sparrow leg muscle.
  • Biology of Mixed Foraging Flocks of Avian Species. Douglass Hathaway Morse Louisiana State University and Agricultural & Mechanical College

    Biology of Mixed Foraging Flocks of Avian Species. Douglass Hathaway Morse Louisiana State University and Agricultural & Mechanical College

    Louisiana State University LSU Digital Commons LSU Historical Dissertations and Theses Graduate School 1965 Biology of Mixed Foraging Flocks of Avian Species. Douglass Hathaway Morse Louisiana State University and Agricultural & Mechanical College Follow this and additional works at: https://digitalcommons.lsu.edu/gradschool_disstheses Recommended Citation Morse, Douglass Hathaway, "Biology of Mixed Foraging Flocks of Avian Species." (1965). LSU Historical Dissertations and Theses. 1048. https://digitalcommons.lsu.edu/gradschool_disstheses/1048 This Dissertation is brought to you for free and open access by the Graduate School at LSU Digital Commons. It has been accepted for inclusion in LSU Historical Dissertations and Theses by an authorized administrator of LSU Digital Commons. For more information, please contact [email protected]. This dissertation has been 65—11,400 microfilmed exactly as received MORSE, Douglass Hathaway, 1938- BIOLOGY OF MIXED FORAGING FLOCKS OF AVIAN SPECIES. Louisiana State University, Ph.D., 1965 Zoology University Microfilms, Inc., Ann Arbor, Michigan BIOLOGY OF MIXED FORAGING FLOCKS OF AVIAN SPECIES A Dissertation Submitted to the Graduate Faculty of the Louisiana State University and Agricultural and Mechanical College in partial fulfillment of the requirements for the degree of Doctor of Philosophy in The Department of Zoology by Douglass Hathaway Morse B •S•9 Bates College, 1960 M.S., The University of Michigan, 1962 May, 1965 ACKNOWLEDGMENTS 1 thank the Department of Zoology and the Museum of Zoology at Louisiana State University for support and the use of equipment during the course of this study* The International Center for Medical Research and Training extended many courtesies to me during my stay in Costa Rica* Mr* Rex R.
  • State of the Park Report, Kennesaw Mountain National Battlefield Park, Georgia

    State of the Park Report, Kennesaw Mountain National Battlefield Park, Georgia

    National Park Service U.S. Department of the Interior State of the Park Report Kennesaw Mountain National Battlefield Park Georgia November 2013 National Park Service. 2013. State of the Park Report for Kennesaw Mountain National Battlefield Park. State of the Park Series No. 8. National Park Service, Washington, D.C. On the cover: Civil War cannon and field of flags at Kennesaw Mountain National Battlefield Park. Disclaimer. This State of the Park report summarizes the current condition of park resources, visitor experience, and park infrastructure as assessed by a combination of available factual information and the expert opinion and professional judgment of park staff and subject matter experts. The internet version of this report provides the associated workshop summary report and additional details and sources of information about the findings summarized in the report, including references, accounts on the origin and quality of the data, and the methods and analytic approaches used in data collection and assessments of condition. This report provides evaluations of status and trends based on interpretation by NPS scientists and managers of both quantitative and non- quantitative assessments and observations. Future condition ratings may differ from findings in this report as new data and knowledge become available. The park superintendent approved the publication of this report. Executive Summary The mission of the National Park Service is to preserve unimpaired the natural and cultural resources and values of national parks for the enjoyment, education, and inspiration of this and future generations. NPS Management Policies (2006) state that “The Service will also strive to ensure that park resources and values are passed on to future generations in a condition that is as good as, or better than, the conditions that exist today.” As part of the stewardship of national parks for the American people, the NPS has begun to develop State of the Park reports to assess the overall status and trends of each park’s resources.
  • Discrimination of Black-Capped Chickadee (Poecile Atricapillus) Chick-A-Dee Calls Produced Across Seasons

    Discrimination of Black-Capped Chickadee (Poecile Atricapillus) Chick-A-Dee Calls Produced Across Seasons

    ABC 2020, 7(2):247-256 Animal Behavior and Cognition DOI: https://doi.org/10.26451/abc.07.02.14.2020 ©Attribution 3.0 Unported (CC BY 3.0) Discrimination of black-capped chickadee (Poecile atricapillus) chick-a-dee calls produced across seasons Erin N. Scully1, Kimberly A. Campbell2, Jenna V. Congdon1, and Christopher B. Sturdy*,1,2 1Department of Psychologya, University of Alberta 2Neuroscience and Mental Health Instituteb, University of Alberta *Corresponding author (Email: [email protected]) Citation – Scully, E. N., Campbell, K. A., Congdon, J. V., & Sturdy, C. B. (2020). Discrimination of black-capped chickadee (Poecile atricapillus) chick-a-dee calls produced across seasons. Animal Behavior and Cognition, 7(2), 247-256. doi: https://doi.org/10.26451/abc.07.02.14.2020 Abstract – While black-capped chickadees (Poecile atricapillus) primarily produce fee-bee songs in spring, they produce chick-a-dee calls year-round with call production peaking in the fall. This call serves multiple functions, including food location, flock communication, and predator alarm. As seasons change, the meaning of the call may also change. For instance, flock communication could be more important in the fall than in the spring, and food type and availability change according to season. To determine if the chick-a-dee call varies acoustically across seasons in a predictable manner, we conducted an operant go/no-go discrimination task that examined black-capped chickadees’ ability to categorize calls produced in two different seasons: fall and spring. We found that birds trained to respond to vocalizations produced in either fall or spring learned to discriminate at the same rate as birds trained to respond to pseudorandomized stimuli, suggesting that none of the groups demonstrated category learning, relying instead on rote memorization.
  • Programs and Field Trips

    Programs and Field Trips

    CONTENTS Welcome from Kathy Martin, NAOC-V Conference Chair ………………………….………………..…...…..………………..….…… 2 Conference Organizers & Committees …………………………………………………………………..…...…………..……………….. 3 - 6 NAOC-V General Information ……………………………………………………………………………………………….…..………….. 6 - 11 Registration & Information .. Council & Business Meetings ……………………………………….……………………..……….………………………………………………………………………………………………………………….…………………………………..…..……...….. 11 6 Workshops ……………………….………….……...………………………………………………………………………………..………..………... 12 Symposia ………………………………….……...……………………………………………………………………………………………………..... 13 Abstracts – Online login information …………………………..……...………….………………………………………….……..……... 13 Presentation Guidelines for Oral and Poster Presentations …...………...………………………………………...……….…... 14 Instructions for Session Chairs .. 15 Additional Social & Special Events…………… ……………………………..………………….………...………………………...…………………………………………………..…………………………………………………….……….……... 15 Student Travel Awards …………………………………………..………...……………….………………………………..…...………... 18 - 20 Postdoctoral Travel Awardees …………………………………..………...………………………………..……………………….………... 20 Student Presentation Award Information ……………………...………...……………………………………..……………………..... 20 Function Schedule …………………………………………………………………………………………..……………………..…………. 22 – 26 Sunday, 12 August Tuesday, 14 August .. .. .. 22 Wednesday, 15 August– ………………………………...…… ………………………………………… ……………..... Thursday, 16 August ……………………………………….…………..………………………………………………………………… …... 23 Friday, 17 August ………………………………………….…………...………………………………………………………………………..... 24 Saturday,
  • Black-Capped Chickadee (Poecile Atricapilla) Alec Lindsay

    Black-Capped Chickadee (Poecile Atricapilla) Alec Lindsay

    Black-capped Chickadee (Poecile atricapilla) Alec Lindsay Lake Erie Metropark, Wayne Co., MI 10/30/2008 © Jerry Jourdan This species is sponsored by: Petoskey Regional Audubon Society (Click to view a comparison of Atlas I to II) Ubiquitous, social, and tolerant of human Province of Ontario. Their southern range extends only partially across Illinois, Indiana activities, Black-capped Chickadees are and Ohio, where the Carolina Chickadee arguably among Michigan’s most easily becomes more common. recognized birds. Year-round residents of urban, rural and wilderness habitats, Black-capped Distribution chickadees are also regular visitors to bird Some of the earliest accounts of chickadees in feeders. Unlike many other “feeder birds,” Michigan (Barrows 1912) indicate chickadees chickadees are a scatter-hoarding species, have been breeding across both peninsulas of storing individual food items in thousands of the state for a long period. Black-capped caches that they remember and return to over Chickadee distribution changed slightly between long periods of time (Hitchcock and Sherry the two Atlas periods. Chickadees were reported 1990). For a small bodied bird like a chickadee, from over 3,700 Atlas blocks during MBBA II, supplemental feeding can have positive impacts compared with over 4,100 blocks in MBBA I. on winter survival (Wilson 2001). Chickadees Reports of chickadees were clearly widespread typically spend the fall and winter months in across the state, yet fewer than a quarter of larger chickadee flocks with linear dominance reports were confirmed breeding records. With hierarchies, where males dominate females and the exception of Lenawee and Hillsdale older birds dominate new recruits (Glase 1973).
  • Comparative Notes on the Life History of the Carolina Chickadee1

    Comparative Notes on the Life History of the Carolina Chickadee1

    COMPARATIVE NOTES ON THE LIFE HISTORY OF THE CAROLINA CHICKADEE1 RICHARD BREWER knowledge of the life histories of closely related organisms is basic to A understanding their ecological and evolutionary relationships. The Carolina and Black-capped Chickadees (Parus carolinensis Audubon and P. atricapillus Linnaeus) are sibling species occupying essentially allopatric breeding ranges. Where their ranges are contiguous in western Illinois and eastern Missouri, interbreeding apparently occurs, with the production of a zone in which a large proportion of the birds may be hybrids. This paper presents information on certain aspects of the life history of the Carolina Chickadee, along with comparative material on the Black-capped Chickadee and on a population occurring at the line of contact between these two species. Appreciation is due S. C. Kendeigh, who directed the study. Many persons have aided me through discussion or by assistance in field work; particularly, I am indebted to G. W. COX, W. L. Gillespie, and G. C. West. For supplying me with much valuable information through correspondence, I extend my thanks to K. L. Dixon, L. D. K. Lawrence, C. McMullen, J. T. Tanner, and especially to H. Brackbill and A. Laskey whose sizable contributions are cited specifically in the appropriate sections beyond. My wife, Lucy Sharp Brewer, assisted in tending and observing young in the laboratory. Work during the years 1956-1959 was supported by National Science Foundation pre- doctoral fellowships. PROCEDURE Field work was conducted from October 1954 to November 1959. Although some supplemental observations were made in Indiana, Michigan, Mis- souri, North Carolina, Tennessee, and Texas, the principal areas of investiga- tion were the following counties of Illinois: Bond, Champaign, Clinton, Coles, Cumberland, Douglas, Effingham, Fayette, Jackson, Piatt, Randolph, Shelby, Washington, and Williamson.
  • Habitat Modelling and the Ecology of the Marsh Tit (Poecile Palustris)

    Habitat Modelling and the Ecology of the Marsh Tit (Poecile Palustris)

    HABITAT MODELLING AND THE ECOLOGY OF THE MARSH TIT (POECILE PALUSTRIS) RICHARD K BROUGHTON A thesis submitted in partial fulfilment of the requirements of Bournemouth University for the degree of Doctor of Philosophy August 2012 Bournemouth University in collaboration with the Centre for Ecology & Hydrology This copy of the thesis has been supplied on condition that anyone who consults it is understood to recognise that its copyright rests with its author and due acknowledgement must always be made of the use of any material contained in, or derived from, this thesis. 2 ABSTRACT Richard K Broughton Habitat modelling and the ecology of the Marsh Tit (Poecile palustris) Among British birds, a number of woodland specialists have undergone a serious population decline in recent decades, for reasons that are poorly understood. The Marsh Tit is one such species, experiencing a 71% decline in abundance between 1967 and 2009, and a 17% range contraction between 1968 and 1991. The factors driving this decline are uncertain, but hypotheses include a reduction in breeding success and annual survival, increased inter-specific competition, and deteriorating habitat quality. Despite recent work investigating some of these elements, knowledge of the Marsh Tit’s behaviour, landscape ecology and habitat selection remains incomplete, limiting the understanding of the species’ decline. This thesis provides additional key information on the ecology of the Marsh Tit with which to test and review leading hypotheses for the species’ decline. Using novel analytical methods, comprehensive high-resolution models of woodland habitat derived from airborne remote sensing were combined with extensive datasets of Marsh Tit territory and nest-site locations to describe habitat selection in unprecedented detail.
  • Backyard Birds in Texas

    Backyard Birds in Texas

    Backyard Birds in Texas by Mark klyM In Memory of Rob Fleming ROB FLEMING OCTOBER 27, 1941 MARCH 30, 2003 rob Fleming passed away on March 30, 2003 after a lengthy battle with cancer. rob earned his art degree from Southwest Texas State University and was a successful commercial artist in Houston before opening his own design studio in 1982. rob joined TPWD in 1990 as a staff illustrator and was the Fine art Manager in the Creative Services branch of the Communications Division. rob provided many illustrations for TPWD programs throughout his career and was the winner of numerous awards for his work. leaving the paints to the painters, rob wove his own brand of magic with Prismacolor pencils. Whether a still-life study or a Texas landscape, rob’s technique of color layering created distinctive and truly unique pencil paintings. His colorful pencil studies are in various corporate and private collections throughout the state, and his art graces many TPWD posters, brochures, books and reports. His gentle style and wonderful talent will truly be missed. Cover illustration of Downy Woodpecker by Rob Fleming. Introduction birdwatching, or birding as it is more often referred to, is one of the fastest growing hobbies today. reasons for this popularity are as diverse as birders—aesthetics of the birds, the chance to get out in nature or a simple love for birds. These are some of the common answers to the question “Why do you like birds?” Creating a habitat that is welcoming to the birds that visit your backyard can help you enjoy the hobby of birding without even leaving the comfort of your living room.
  • And Carolina Chickadee (P

    And Carolina Chickadee (P

    Liberty University DigitalCommons@Liberty University Faculty Publications and Presentations Department of Biology and Chemistry 2005 Reproductive Success Across the Black-capped Chickadee (Poecile atricapillus) and Carolina Chickadee (P. carolinensis) Hybrid Zone in Ohio C. L. Bronson Thomas C. Grubb, Jr. Gene D. Sattler Liberty University, [email protected] Michael J. Braun Follow this and additional works at: http://digitalcommons.liberty.edu/bio_chem_fac_pubs Recommended Citation Bronson, C. L.; Grubb, Jr., Thomas C.; Sattler, Gene D.; and Braun, Michael J., "Reproductive Success Across the Black-capped Chickadee (Poecile atricapillus) and Carolina Chickadee (P. carolinensis) Hybrid Zone in Ohio" (2005). Faculty Publications and Presentations. Paper 35. http://digitalcommons.liberty.edu/bio_chem_fac_pubs/35 This Article is brought to you for free and open access by the Department of Biology and Chemistry at DigitalCommons@Liberty University. It has been accepted for inclusion in Faculty Publications and Presentations by an authorized administrator of DigitalCommons@Liberty University. For more information, please contact [email protected]. The Aiik 122(3):759-772, 2005 © The Americiin Ornithologists' Union, 2005. ^L Printed in USA. REPRODUCTIVE SUCCESS ACROSS THE BLACK-CAPPED CHICKADEE {POECILE ATRICAPILLUS) AND CAROLINA CHICKADEE (P. CAROLINENSJS) HYBRID ZONE IN OHIO C. L. BRONSON,' ' THOMAS C. GRUBB, JR./ GENE D. SATTLER,' AND MICHAEL J. 'Dqmrtiticnt of Evolution. Ecohi^y, and Organlsmal Biology, The Ohio Staff Uiiivcrsifii, 318 West Tllli AveiUK Columims, Ohio 43210. USA: 'Di-piut)Jiciit of Biolo;^y mid Cliemistri/, Libert]/ Uniz'crsity, 1971 University Boiilcvnrii, i\/mhbuy^, Vir^iniiJ 24502, USA; mid iciit ofVcrldinUe Zoolo;^y, Nntioiuil Miisciofi ofNntiirnl History, Siiiillisoniiin Institution, 4210 Silver tliil Roud.