Foraging ecology of pileated woodpeckers in Dukes Experimental Forest in the Upper Peninsula of Michigan

Wierda, Michael R.,

January 2008

Thesis (M.S.)--Northern Michigan University, 2008. / Bibliography: leaves 24-26.

Pileated woodpecker Pileated woodpecker

Nest success, nesting habitat, & nestling feeding rates of red-headed woodpeckers in east-central Illinois /

Hudson, Nathan Cole,

January 2009

Thesis (M.S.)--Eastern Illinois University, 2009. / Includes bibliographical references.

Assessing habitat quality for the endangered red-cockaded woodpecker

Convery, Ken M.

January 2002

Thesis (M.S.)--Virginia Polytechnic Institute and State University, 2002. / Title from PDF t.p. (viewed on Dec. 14, 2005). Vita. Includes bibliographical references.

Parental effort and parasite resistance in the red-bellied woodpecker (Melanerpes Carolinus)

Schrader, Matthew S. James, Frances C.

January 2003

Thesis (M.S.)--Florida State University, 2003. / Advisor: Dr. Frances C. James, Florida State University, School of Arts and Sciences, Dept. of Biological Science. Title and description from dissertation home page (viewed Sept. 26, 2003). Includes bibliographical references.

Red-bellied woodpecker

Foraging patterns of nesting Gila woodpeckers

Martindale, Steven Paul

January 1980

No description available.

Gila woodpecker.

Woodpeckers -- Food.

The population history of the downy woodpecker (Picoides pubescens) in North America : insights from genetics, ecological niche modeling and bioacoustics / Paulo C. Pulgarín-Restrepo

Pulgarín-Restrepo, Paulo César, University of Lethbridge. Faculty of Arts and Science

January 2011

The last Quaternary ice age strongly influenced the distribution of most plants and animals. Here I used genetics, ecological niche modeling and bioacoustics to understand the possible historical patterns behind the current distribution of the Downy Woodpecker (Picoides pubescens) in North America. Analyses of mtDNA sequences and seven microsatellites loci suggest low genetic differentiation among populations (a maximum of two genetic groups), however population structure is subtle. Ecological niche modeling suggests several refugia SE of US, and some restricted areas east and west of the Rocky Mountains with ecological suitable conditions for the species at 18-21 kya. The analysis of the pik call suggested no geographic variation in the frequency and temporal variables studied. It is likely that the Downy Woodpecker expanded and colonized northern North America quickly after the LGM from a southern refugium / x, 96 leaves ; 29 cm

Downy woodpecker

Downy woodpecker -- Genetics

Downy woodpecker -- Variation

Dissertations, Academic

An Analysis of acoustic Ccmmunication within the social system of Downy Woodpeckers (Picoides pubescens)

Dodenhoff, Danielle.

January 2002

Thesis (Ph. D.)--Ohio State University, 2002. / Title from first page of PDF file. Document formatted into pages; contains xiii, 132 p. Includes abstract and vita. Advisor: Douglas Nelson, Dept. of Evolution, Ecology, and Organismal Biology. Includes bibliographical references (p. 126-132).

Downy woodpecker. Birdsongs.

An analysis of acoustic communication within the social system of Downy Woodpeckers (Picoides pubescens) /

Dodenhoff, Danielle.

January 2002

No description available.

Biology

Downy woodpecker

Birdsongs

The population genetics and phylogeography of the hairy woodpecker (Picoides villosus) / Brendan A. Graham

Graham, Brendan A., University of Lethbridge. Faculty of Arts and Science

January 2011

This thesis examines the effects that Pleistocene glaciation had on the population structure and contemporary genetic patterns of the hairy woodpecker (Picoides villosus). A combination of molecular markers, revealed reduced levels of gene flow among groups of hairy woodpeckers. Microsatellite analyses suggest barriers to gene flow have influenced contemporary population structure, with higher structure found in western North America where barriers to gene flow are more prevalent. MtDNA analyses revealed three distinct genetic lineages, two in North America and a third in Central America. Results indicate these lineages separated prior to the Wisconsin glaciation (~100 kya) and that contemporary population structure is the result of post-glacial expansion from multiple refugia following deglaciation. Current taxonomy recognizes 17 subspecies (Jackson et al., 2002), but molecular analyses in this study do not support current subspecies designations. / xii, 117 leaves ; 29 cm

Hairy woodpecker

Hairy woodpecker -- Genetics

Hairy woodpecker -- Variation

Dissertations, Academic

Natural selection and demography shape the genomes of New World birds

Rocha Moreira, Lucas

January 2021

Genomic diversity is shaped by the interplay between mutation, genetic drift, recombination, and natural selection. A major goal of evolutionary biology is to understand the relative contribution of these different microevolutionary forces to patterns of genetic variation both within and across species. The advent of massive parallel sequencing technologies opened new avenues to investigate the extent to which alternative evolutionary mechanisms impact the genome and the footprints they leave. We can leverage genomic information to, for example, trace back the demographic trajectory of populations and to identify genomic regions underlying adaptive traits. In this dissertation, I employ genomic data to explore the role of demography and natural selection in two New World bird systems distributed along steep environmental gradients: the Altamira Ori-ole (Icterus gularis), a Mesoamerican bird that exhibits large variation in body size across its range, and the Hairy and Downy woodpecker (Dryobates villosus and D. pubescens), two sympatric species whose phenotypes vary extensively in response to environments in North America. In Chapter 1, I combine ecological niche model, phenotypic and ddRAD sequencing data from several individuals of I. gularis to investigate which spatial processes best explain geographic variation in phenotypes and alleles: (i) isolation by distance, (ii) isolation by history or (iii) isolation by environment. I find that the pronounced genetic and phenotypic variation in I. gularis are only partially correlated and differ regarding spatial predictors. Whereas genomic variation is largely explained by historical barriers to gene flow (IBH), variation in body size can be best predicted by contemporary environmental heterogeneity (IBE), which is consistent with a pattern produced by either natural selection or environmental plasticity. In Chapter 2, I conduct whole genome resequencing on 140 individuals of Downy and Hairy Woodpecker from across North America to more explicitly elucidate the impact of demography and natural selection on the genome. I find that despite spatial congruence in allele frequencies, population structure in these two species has been produced at different temporal scales. Whereas Hairy Woodpeckers were isolated into two east-west glacial refugia, Downy woodpecker populations seem to have expanded from a single ancestral refugium. Demographic analyses suggest large variation in Ne over the past one million years in both Hairy and Downy Woodpeckers, with repeated episodes of bottleneck followed by population expansion, consistent with the onset of the climatic oscillations of the Pleistocene. Nucleotide diversity in both species was positively correlated with recombination rate and negatively correlated with gene density, suggesting the effect of linked selection. The magnitude of this effect, however, seems to have been modulated by the individual demographic trajectory of populations and species. Nevertheless, patterns of nucleotide diversity along the genome are highly correlated between Hairy and Downy Woodpecker, which may be attributed to pervasive selection acting on a conserved genomic landscape of recombination. Finally, in Chapter 3, I use a suite of statistical methods to scan the genome of Hairy and Downy Woodpecker for signatures of natural selection associated with population-specific environmental differences. I test whether climatic adaptation was achieved through selection on the same loci in both species, which would indicate parallel genetic mechanisms for adaptation. I find limited evidence of genomic parallelism at the SNP level, but large parallelism at the gene level. Candidate genes were involved in a broad range of biological processes, including immune response, nutritional metabolism, mitochondrial respiration, and embryonic development. Lastly, I identify potential candidates for key phenotypic traits in Downy and Hairy Woodpecker, such as genes in the IGF signaling pathway, putatively linked to differences in body size, and the melanoregulin gene (MREG), potentially involved in plumage variation. Together, these findings highlight the significant role of demography and natural selection in shaping genomic variation.

Evolution (Biology)

Genetics

Ecology

Genomes

Birds

Hairy woodpecker

Downy woodpecker