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1. Predicting Source Populations of Vagrants Using Breeding Population Data: A Case Study of the Lesser Black-Backed Gull (Larus fuscus)

   https://doi.org/10.3389/FEVO.2021.637452  

   Zawadzki, Lucinda C.; Hallgrimsson, Gunnar T.; Veit, Richard R.; Rasmussen, Lars M.; Boertmann, David; Gillies, Natasha; Guilford, Tim (December 2021, Frontiers in Ecology and Evolution)

   Vagrancy is critical in facilitating range expansion and colonization through exploration and occupation of potentially suitable habitat. Uncovering origins of vagrants will help us better understand not only species-specific vagrant movements, but how the dynamics of a naturally growing population influence vagrancy, and potentially lead to range expansion. Under the premise that occurrence of vagrants is linked to increasing population growth in the core of the breeding range, we assessed the utility of breeding population survey data to predict source populations of vagrants. Lesser Black-backed Gulls (LBBG) ( Larus fuscus ) served as our focal species due to their dramatic and well-documented history of vagrancy to North America in the last 30 years. We related annual occurrence of vagrants to indices of breeding population size and growth rate of breeding populations. We propose that the fastest growing population is the most likely source of recent vagrants to North America. Our study shows that it is possible to predict potential source populations of vagrants with breeding population data, but breeding surveys require increased standardization across years to improve models. For the Lesser Black-backed Gull, Iceland’s breeding population likely influenced vagrancy during the early years of colonization, but the major increase in vagrants occurred during a period of growth of Greenland’s population, suggesting that Greenland is the source population of the most recent pulse of vagrant LBBG to North America. 

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2. Tropical Kingbird at Staten Island, New York and a Northeastwards Surve of Vagrants to North America

   Veit, Richard R.; Manne, Lisa L.; Ciancimino, Anthony V. (March 2022, The Kingbird)

   Tropical Kingbird (Tyrannus melancholicus) is an abundant and widespread Neotropical species with an extended history of vagrancy to temperate North America (Pranty et al. 2016). One at Mount Loretto Unique Area, Staten Island, NY (40.503575, -74.218169) on 26 September 2021 was just the second for New York State, less than a year after the first, at Dobbs Ferry, Westchester County, 27-29 October 2020 (Tom Warren, Julien Ansellem, eBird). These New York records follow scores of records from Florida since 1982 and at least 25 from northeastern North America through 2020. Here we provide details for the Staten Island record, describe the broader recent increase in northward occurrence of vagrant Tropical Kingbirds, and address what could be responsible for this change. Specifically, we tested the hypothesis that the occurrence of Tropical Kingbirds in northeastern North America could be predicted by their occurrence in Florida and confirmed that this was so, supporting the notion that vagrancy to northeastern North America is the result of an ongoing process of population growth, exploratory behavior, and colonization. 

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3. Pleistocene Glaciation Drove Shared Population Coexpansion in Eastern North American Snakes

   https://doi.org/10.1111/mec.17625  

   Harrington, Sean; Overcast, Isaac; Myers, Edward_A; Burbrink, Frank_T (December 2024, Molecular Ecology)

   ABSTRACT Glacial cycles during the Pleistocene had profound impacts on local environments and climatic conditions. In North America, some regions that currently support diverse biomes were entirely covered by ice sheets, while other regions were environmentally unsuitable for the organisms that live there now. Organisms that occupy these regions in the present day must have expanded or dispersed into these regions since the last glacial maximum, leading to the possibility that species with similar geographic distributions may show temporally concordant population size changes associated with these warming trends. We examined 17 lineages from 9 eastern North American snake species and species complexes to test for a signal of temporally concordant coexpansion using a machine learning approach. We found that the majority of lineages show population size increases towards the present, with evidence for coexpansion in five out of fourteen lineages, while expansion in others was idiosyncratic. We also examined relationships between genetic distance and current environmental predictors and showed that genomic responses to environmental predictors are not consistent among species. We, therefore, conclude that Pleistocene warming resulted in population size increases in most eastern North American snake species, but variation in environmental preferences and other species‐specific traits results in variance in the exact timing of expansion. 

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4. Population Growth and Long-Distance Vagrancy Leads to Colonization of Europe by Elegant Terns Thalasseus elegans

   https://doi.org/10.3389/FEVO.2021.725614  

   Veit, Richard Reed; Velarde, Enriqueta; Horn, Michael H.; Manne, Lisa L. (November 2021, Frontiers in Ecology and Evolution)

   Elegant terns Thalasseus elegans breed in a very limited area of the northern Gulf of California and the Pacific coast of southern California, with up to 95% (mean 78%, 1991–2014, Perez et al., 2020 ) of the population nesting on Isla Rasa in the northern Gulf of California. On Isla Rasa, the primary nesting colony, elegant terns suffered predation by rodents which raised the possibility of population extinction, with a substantial proportion of the world population nesting on this single island. Because of this threat, rodents were successfully removed from Isla Rasa in 1995. The removal of rodents from Isla Rasa led to a near immediate increase in the population of elegant terns. That increase was associated with a changing pattern in dispersal by the terns, including extraordinary movements to the Gulf of Mexico, the Atlantic coast of the United States north to Massachusetts, and, remarkably, to western Europe. A few elegant terns successfully bred at these European localities during 2009 to the present. In this paper we use this exceptional example of long-distance dispersal to illustrate how rapid population growth during ∼ 1995 to present can lead to successful colonization of remote sites through repeated instances of vagrancy. We tested four Hypotheses that together support the idea that the growing population of elegant terns has produced increasing numbers of young, and these young have spread, through the mechanism of vagrancy, to the Pacific Northwest, the east coast of the United States, and western Europe. Our Hypotheses are: (1) The nesting population of elegant terns within their core nesting range has increased since removal of rodents from Isla Rasa; (2) Occurrence of vagrant elegant terns in the Pacific Northwest is driven by population growth within the core breeding range. (3) Occurrence of vagrant elegant terns at the east coast of the United States is driven by population growth within the core breeding range. (4) Occurrence and colonization of western Europe by elegant terns is driven by nesting population size within the core breeding range. Corollaries of these Hypotheses are, (i) that there is a time lag in occurrence of vagrants at each of these areas, based on increasing distance from the core breeding range and (ii) the number of vagrants in any given year is also related to sea surface temperature (SST), as expressed by Oceanic Niño Index, a proxy for food resource levels. Generally we found strong statistical support for each of these Hypotheses; an exception was for the occurrence of elegant terns in the Pacific Northwest, which initially occurred following El Niño events (low food supply) and profound breeding failure, but later corresponding to cold water years with high breeding success. We use elegant terns, exceptional for the highly restricted breeding range and sustained population growth over 25 years, to illustrate how growing populations may colonize very distant habitats through repeated instances of vagrancy. 

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5. Demographic history shapes North American gray wolf genomic diversity and informs species' conservation

   https://doi.org/10.1111/mec.17231  

   vonHoldt, Bridgett M; Stahler, Daniel R; Brzeski, Kristin E; Musiani, Marco; Peterson, Rolf; Phillips, Michael; Stephenson, John; Laudon, Kent; Meredith, Erin; Vucetich, John A; et al (February 2024, Molecular Ecology)

   Abstract Effective population size estimates are critical information needed for evolutionary predictions and conservation decisions. This is particularly true for species with social factors that restrict access to breeding or experience repeated fluctuations in population size across generations. We investigated the genomic estimates of effective population size along with diversity, subdivision, and inbreeding from 162,109 minimally filtered and 81,595 statistically neutral and unlinked SNPs genotyped in 437 grey wolf samples from North America collected between 1986 and 2021. We found genetic structure across North America, represented by three distinct demographic histories of western, central, and eastern regions of the continent. Further, grey wolves in the northern Rocky Mountains have lower genomic diversity than wolves of the western Great Lakes and have declined over time. Effective population size estimates revealed the historical signatures of continental efforts of predator extermination, despite a quarter century of recovery efforts. We are the first to provide molecular estimates of effective population size across distinct grey wolf populations in North America, which ranged betweenN_e ~ 275 and 3050 since early 1980s. We provide data that inform managers regarding the status and importance of effective population size estimates for grey wolf conservation, which are on average 5.2–9.3% of census estimates for this species. We show that while grey wolves fall above minimum effective population sizes needed to avoid extinction due to inbreeding depression in the short term, they are below sizes predicted to be necessary to avoid long‐term risk of extinction. 

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