The Effects of Isolation on Endemic Cozumel Island Rodents: A Test of the Island Rule

Nuttall, Brittany Marie

01 December 2013

Island isolation can cause changes in body size, cranial characteristics, and genetic variation in mammals. We use geometric morphometrics to test skull and mandible shape and size change across three species of endemic Cozumel Island rodents in order to test the “island rule” of larger size in isolated rodents. We also sequenced the D-Loop and cytochrome b region of the mitochondrial genome and tested for differences in genetic variation between island and mainland groups, as well as population structure and gene flow in order to assess the effect of island isolation on these three rodents. We found that the three species of rodents showed varying degrees of size and shape differences from island to mainland with some species varying considerably and others not at all. The genetic results were similar with some species exhibiting potential founder effects, while others showed little differentiation between the island and mainland. We conclude that evolution on islands is highly conditional on the history, community composition, and biology of the colonizing species.

island rule

geometric morphometrics

Cozumel

Reithrodontomys spectabilis

Reithrodontomys gracilis

Oryzomys couesi

Peromyscus leucopus

Biology

Relationship of Reproductive Timing and Climate Change to the Displacement of Peromyscus maniculatus gracilis by Peromyscus leucopus noveboracensis

Rowland, Lindsey Claire

25 June 2003

No description available.

Michigan

Peromyscus leucopus

Peromyscus maniculatus

reproductive timing

climate change

species distribution

species displacement

interspecific dominance

FACTORS AFFECTING THE NEGATIVE DENSITY AREA RELATIONSHIP OF THE WHITE-FOOTED MOUSE (PEROMYSCUS LEUCOPUS)

Wilder, Shawn Michael

07 July 2003

No description available.

population density

Peromyscus leucopus

forest fragmentation

fragmentation

foraging

reproduction

deer tick

season

seasonality

negative density-area

The Effects of Predation and Supplemental Food on Foraging and Abundance of White-Footed Mice (<i>Peromyscus Leucopus</i>) in Relation to Forest Patch Size

Marcello, Gregory James

05 August 2005

No description available.

Peromyscus leucopus

periodical cicada

supplemental food

predator odor

giving-up density

patch size

fragmentation

The Effects of Bot Fly (<i>Cuterebra Fontinella</i>) Parasitism on the Ecology and Behavior of the White-Footed Mouse (<i>Peromyscus Leucopus</i>)

Cramer, Michael John

03 April 2006

No description available.

parasitism

sexual selection

behavioral ecology

population ecology

movement

Peromyscus leucopus

Cuterebra fontinella

Ecological niche responses of small mammals to gypsy moth disturbance

Tomblin, David Christian

30 June 2009

The objective of this study was to determine differences in small mammal assemblage structure and population dynamics among four oak dominated sites at four different stages of gypsy moth disturbance: a high tree mortality site, a disturbance in process site, a disturbance recovery site, and an undisturbed reference site. More specifically, the study was designed to identify changes in habitat structure that would influence small mammal microdistributions and determine the quality of habitat created by gypsy moth herbivory using demographic structure of <i>Peromyscus</i> populations as an indicator of habitat quality. <i>Peromyscus leucopus</i>, Peromyscus maniculatus, the Soricids, and <i>Clethrionomys gapperi</i> had greater abundances at the disturbed sites relative to the reference site. Gypsy moth disturbance increased the abundance of small mammals and the number of coexisting species within a given area, which was attributed to several changes in habitat structure. The disturbed sites were characterized as having more fallen logs and standing dead snags, greater shrub and herbaceous cover, and higher invertebrate abundances relative to the reference site. These changes in habitat structure provided small mammals with increased cover from avian predators, more food resources, and potential nesting cavities. <i>P. leucopus</i> populations at the high mortality site exhibited greater demographic stability than the reference Site populations. This was marked by higher proportions of females, smaller density fluctuations, more fall recruitment of young, higher residency, and lower proportions of males. Strong evidence for density-dependent population regulation was observed for <i>P. leucopus</i> populations at the high mortality site and the <i>P. maniculatus</i> population at the recovery site. At high densities these populations exhibited extensive intraspecific microhabitat segregation. Female adults segregated from juveniles and male adults into more optimal microhabitats. Male adult microhabitat use significantly differed from male juvenile microhabitat use. The exclusion of young mice from optimal microhabitats by adults may be a mechanism by which adults limit over-exploitation of resources by subordinate members of the population at high densities. The results of this study suggest that gypsy moth disturbance of areas dominated by chestnut oaks at least temporarily improves habitat quality for small mammals. / Master of Science

LD5655.V855 1994.T663

Gypsy moth

The effect of understory vegetation on nestbox utilization by Peromyscus leucopus in differently sized forest fragments

Whynott, Rachel Marie

24 April 2010

No description available.

Agriculture

Animals

Behaviorial Sciences

Biology

Ecology

Environmental Science

Forestry

Zoology

peromyscus

leucopus

vegetation

nestbox

nestboxes

habitat fragmentation

fragmentation

forest fragmentation

Effects of Forest Fragmentation on the Abundance, Distribution, and Population Genetic Structure of White-Footed Mice (<i>Peromyscus Leucopus</i>)

Anderson, Christine Schandorsky

06 August 2004

No description available.

<i>Peromyscus leucopus</i>

forest fragmentation

population genetic structure

patch area

isolation

edge

inbreeding

genetic variation

movement

dispersal

microhabitat

Efficacité des isoxazolines pour traiter le réservoir principal de l’agent de la maladie de Lyme, la souris Peromyscus leucopus

Dimitri Masson, Gabrielle

04 1900

La maladie de Lyme est émergente au Canada; le risque engendré par cette maladie vient en partie de la ténacité de son vecteur et des méthodes limitées pour réduire son abondance dans l’environnement. Actuellement, peu de moyens de prévention visent de manière efficace et sécuritaire le réservoir principal de la bactérie responsable de la maladie, la souris à patte blanche Peromyscus leucopus. L’objectif de ce projet était d’évaluer l’efficacité des isoxazolines, une nouvelle classe d’antiparasitaire, lorsqu’administré sous forme d’appâts oraux aux micromammifères résidents d’un site endémique pour la maladie de Lyme. Les appâts furent distribués lors de l’été 2018 et 2019, sur les terrains choisis du parc national des Mille-Îles, en Ontario. La capture de micromammifères, en terrain traité et non traité, nous permit d’évaluer l’infestation (nombre de tiques par souris) du réservoir Peromyscus alors que l’effet du traitement sur la densité de tiques dans l’environnement fut estimé par la technique de flanelle. L’impact de la molécule d’isoxazoline employée (sarolaner versus fluralaner), de la biodiversité et du type d’environnement (caractéristiques de la forêt, température, humidité) fut également évalué. Des modèles linéaires mixtes binomiale négative furent composés pour déterminer l’impact de chacune des variables mesurées et du traitement sur les variables dépendantes, soit le nombre de tiques sur les souris capturées et la densité de nymphes dans l’environnement. Après deux étés de traitement, les souris capturées sur les microsites traités furent significativement moins infestées que les souris capturées sur les microsites contrôles pour 3 des 5 sites étudiés. Par contre, aucune diminution significative du nombre de nymphes dans l’environnement ne fut observée, probablement dû à la courte durée du devis d’étude. La densité de nymphes dans l’environnement variait toutefois en fonction de l’année d’échantillonnage et était positivement corrélée avec la biodiversité au niveau du microsite. Le nombre de tiques sur Peromyscus spp. était associé au sexe (les mâles étant plus infesté) et à la taille de l’animal, au mois et à l’année de la capture, à une forte densité de larves dans l’environnement et au traitement effectué sur le microsite de capture. Le fluralaner se montra plus efficace à réduire l’infestation moyenne des rongeurs. Cette étude fut la première à étudier l’utilisation de saronaler oral chez le réservoir principal de l’agent de la maladie de Lyme en milieu naturel. L’effet du traitement chez les micromammifères est prometteur, mais son efficacité pour réduire la densité de tiques dans l’environnement reste à confirmer. / Lyme disease is the most common vector-borne disease in North America; the risk caused by the disease is partly due to its tick vector’s tenacity and limited number of approaches to reduce its abundance in the environment. Few existing methods efficiently and safely target the principal host for the bacteria, white-footed mice Peromyscus leucopus.The objective of this thesis was to evaluate the efficacy of a new family of antiparasitic drug, isoxazolines, when passively administered as an oral bait to micromammals in endemic site for Lyme disease. Oral baits were distributed during the summer of 2018 and 2019 on five selected sites in the Thousand Islands National Park. Density of ticks in the environment was estimated using drag sampling while small mammal trapping allowed biodiversity and infestation (number of ticks per mouse) to be assess. Impact of isoxazoline used (sarolaner or fluralaner), biodiversity and characteristics of environment (type of forests, temperature, humidity) were also evaluated. Linear mixed models were fitted to determine the impact of measured variables and treatment on infestation level and density of questing nymphs. Results show a significant reduction in tick load for mice captured on treatment plots compared to control plots for 3 out of 5 sites. However, we did not observe a significant reduction in the density of questing nymphs, probably due to the limited duration of the study. Density of nymphs followed interannual variation and was best explained by humidity levels at the time of sampling and plot-level host biodiversity. Peromyscus spp. infestation was linked to the sex (male being more infested) and body length of the mice, high density of questing larvae, year and month of capture and treatment applied to the microsite. Fluralaner showed to be more efficient at reducing mice average tick load. This study was the first to use oral sarolaner to treat the most important reservoir for the Lyme disease agent in the environment. Our protocol did not significantly reduce questing nymphs in the environment for the duration of this study but could potentially diminish Lyme disease human risk with long term use through reduced Peromyscus infestation.

Maladie de Lyme

Isoxazolines

Maladie vectorielle

Borrelia burgdoferi

Ixodes scapularis

Mille-Îles

Micromammifères

Peromyscus leucopus

Lyme disease

Tick-borne disease

Thousand Islands

Micromammals