WorldCat Identities

Reeder, DeeAnn M.

Works: 9 works in 40 publications in 2 languages and 1,299 library holdings
Genres: Classification 
Roles: Editor, Author
Publication Timeline
Most widely held works by DeeAnn M Reeder
Mammal species of the world : a taxonomic and geographic reference( Book )

30 editions published between 1992 and 2006 in English and held by 1,268 WorldCat member libraries worldwide

"Wilson and Reeder's Mammal Species of the World is the classic reference book on the taxonomic classification and distribution of the more than 5400 species of mammals that exist today. The third edition includes detailed information on nomenclature and, for the first time, common names. Each concise entry covers type locality, distribution, synonyms, and major reference sources. The systematic arrangement of information indicates evolutionary relationships at both the ordinal and the family level. This indispensable reference work belongs in public and academic libraries throughout the world and on the shelf of every biologist who works with mammals."--Publisher's website
Global trends and biases in new mammal species discoveries by DeeAnn M Reeder( Book )

2 editions published in 2007 in English and held by 11 WorldCat member libraries worldwide

Contrary to common perception, the number of living mammal species and the relationship of those species with one another are incompletely understood. Taxonomic revisions within mammals are frequent and are often motivated by the discovery of new species. In fact, an analysis of patterns of discovery suggests that complete alpha-taxonomic characterization of living mammals remains a far-off goal. Examination of chronological, geographical, and taxonomic trends in new species discoveries reveals interesting trends, telling biases, and priorities for further study. An average of 223 new valid species have been described per decade since the birth of modern taxonomic nomenclature in 1758, and this rate is increasing. Over 300 new mammal species are expected to be described this decade and some estimates suggest that 7,000+ living species of mammals will eventually be recognized. An analysis of 341 recently described species indicates that the great majority of them are restricted to threatened areas of high endemism -- reiterating the biotic richness of these regions, but also indicating that most new species and the regions in which they occur require urgent conservation attention. That the global mammal fauna remains so incompletely characterized reflects the woeful state of knowledge of global biodiversity
Mammal species of the wold (MSW) by National Museum of Natural History (États-Unis)( )

1 edition published in 1993 in English and held by 8 WorldCat member libraries worldwide

The biology of parenting in the monogamous titi monkey (Callicebus moloch) by Deeann M Reeder( )

2 editions published in 2001 in English and held by 4 WorldCat member libraries worldwide

Conservation and ecology of Pennsylvania's bats( Book )

1 edition published in 2016 in English and held by 2 WorldCat member libraries worldwide

Mammal species of the world( )

in French and held by 1 WorldCat member library worldwide

Crowding increases salivary cortisol but not self-directed behavior in captive baboons by Brandan L Pearson( )

1 edition published in 2015 in English and held by 1 WorldCat member library worldwide

Assessing threats to North American bats: impacts of white-nose syndrome and climate on reproduction and survival by Lisa Ellen Powers( )

1 edition published in 2016 in English and held by 1 WorldCat member library worldwide

Many cave-hibernating North American bat species currently face the threat of extinction due to the newly emergent wildlife disease, white-nose syndrome (WNS). WNS is a fungal disease that has been causing catastrophic declines of bat populations in the eastern United States and Canada since it first emerged in 2006. The fungal pathogen, Pseudogymnoascus destructans, infects the wings, ears and nose of bats that hibernate in caves in winter while both cave temperatures and bats⁰́₉ body temperatures are low. The hibernating bats' immune systems do not respond to the infection, leading to wing damage, emaciation, depletion of fat stores, and often death. Infected bats that survive winter mount a vigorous immune response upon exiting hibernation. These bats typically clear the infection, regenerate wing tissue and survive. WNS mortality varies greatly by species. Some species have suffered greater than 90% population declines, while other species appear to have not declined at all. Although researchers have made great strides in the last nine years in understanding WNS, there are still many unknowns. The vast majority of our knowledge of the effects of WNS comes from M. lucifugus because it is one of the most abundant North American species, and is also heavily affected by WNS (population declines> 90%). Aside from estimates of rates of population declines at hibernation sites, the effects of WNS on species other than M. lucifugus are not well resolved. In the next most abundant species, E. fuscus, estimates of population declines range from 0% to 40%. Wing damage had not been studied prior to WNS, making inferences about the relationship between wing damage and WNS difficult. The effects of WNS on reproduction are unknown. Population viability analyses of M. lucifugus determined that population growth is most influenced by survival of reproductive females, but the factors that affect reproductive female survival remain unknown. Currently, the primary WNS population model assumes no effect on reproductive function due to lack of data on the subject. If WNS reduces reproductive output, this model will need to be adjusted to accurately project bat population growth in the post-WNS era. Climate change is another factor that could affect the accuracy of models that project bats' likelihoods of persistence in the post-WNS era. There are few publications on the effects of a changing climate on North American cave-hibernating bats. Climate change has the potential to impact the persistence of cave-hibernating bat species, which have annual cycles of activity and hibernation that are precisely timed to coincide with the availability of their insect prey and temperatures that are conducive to reproduction. Published data on the effects of climate on bat survival are limited to a study of the little brown myotis (Myotis lucifugus) in New Hampshire and the big brown bat (Eptesicus fuscus) in Colorado. These studies indicate that M. lucifugus survival increases with high precipitation in the Northeastern United States, and E. fuscus survival decreases during drought periods in the Rocky Mountain region. This suggests an overall positive relationship between bat survival and precipitation, but the universality of this relationship is unclear without comparable data on multiple species from multiple regions. To my knowledge, Rick Adams⁰́₉s six-species Colorado study is the only published data of the effects of climate on reproduction in temperate-zone North American bats. He found that four of the six species had significantly lower proportions of reproductive females in drought years. Again, it is unclear how universally this applies to the other 42 bat species of the United States, and the extent to which it affects populations outside of the severely water-limited Rocky Mountain region. My dissertation addresses aspects of the knowledge gaps described above. I conducted a survey of wing damage on bats that had been captured in Illinois prior to the arrival of WNS. I found that wing discoloration in particular is common among multiple species of bats. Additionally, I found that in E. fuscus wing discoloration increases in severity in early summer then decreases in severity in late summer, and also varies by year (possibly decreasing in drought years). I conducted a mark-recapture study of M. lucifugus and E. fuscus at a site in western Illinois to test predictions of trends in survival and reproduction in years that varied in temperature and precipitation. This study also modeled population-level effects on the two species as WNS entered the region. I found that reproduction decreased significantly in the drought year for both species, but did not find an effect of temperature or precipitation on survival rates. Survival rates for M. lucifugus dropped drastically in the presumed post-WNS year. There was no change in survival for E. fuscus, nor was there any significant difference in reproduction for either species in the presumed post-WNS year. I conducted an additional study of M. lucifugus at this site on the effects of annual spring temperature on parturition dates, and the effects of parturition date on maternal survival. I found that parturition dates occurred significantly earlier in the hottest year, but did not find an effect of parturition date on maternal survival. Finally, I conducted a study of the effects of WNS on M. lucifugus female fertility during hibernation, and estimated the impact of those effects on population growth rates. I found no effect of WNS on female fertility. My models demonstrated that even if fertility were reduced by 17% (the maximum included in the 95% confidence intervals of my results), post-WNS populations would not become extinct any sooner than they would if there were no effect of WNS on fertility. Unexpectedly, I observed that both infected and uninfected females had neutrophils (a white blood cell that responds to infection) present in their reproductive tracts where sperm were present. This was surprising given that all published studies of the P. destructans-infected wing tissue in hibernating bats report an absence of neutrophils and other white blood cells. The studies that I present in this dissertation contribute to our knowledge of WNS and bat conservation in several ways. I found that wing discoloration should not be interpreted as an indicator of WNS, and that researchers should anticipate changes in the severity of this type of damage from season-to-season and year-to-year. In a rare bit of good news from WNS studies, I found that the current WNS population model is accurate in terms of reproductive output: there is no effect of WNS on reproduction in hibernation, and no effect during the summer maternity season. However, I did find that reproduction drops in drought years for both species studied. This is similar to results from a previously published study in Colorado, and indicates that bat populations in both the Midwest and Rocky Mountain regions may face declines if the climate becomes hotter and drier in coming years. My results do not show evidence of reduced survival in drought years. This also comes as good news, because bat population growth is influenced more by survival than by reproduction. Additionally, I found a clue that may improve our understanding of bats⁰́₉ immune function during hibernation: Although hibernating bats do not mount an immune response to P. destructans infection, they are capable of immune cell recruitment. I look forward to investigating this apparent paradox in future studies
Nycteria parasites of Afrotropical insectivorous bats( )

1 edition published in 2015 in English and held by 1 WorldCat member library worldwide

Graphical abstract: Highlights: Molecular Nycteria parasite phylogeny reveals two distinct Nycteria /bat assemblages. Robust prevalence and gametocytemia of Nycteria infections were found in insectivorous bats. Phylogenetic signatures of ancient Nycteria host-parasite congruence. Molecular evidence is given for additional members in Nycteria spp. complex. Abstract: Parasitic protozoan parasites have evolved many co-evolutionary paths towards stable transmission to their host population. Plasmodium spp., the causative agents of malaria, and related haemosporidian parasites are dipteran-borne eukaryotic pathogens that actively invade and use vertebrate erythrocytes for gametogenesis and asexual development, often resulting in substantial morbidity and mortality of the infected hosts. Here, we present results of a survey of insectivorous bats from tropical Africa, including new isolates of species of the haemosporidian genus Nycteria . A hallmark of these parasites is their capacity to infect bat species of distinct families of the two evolutionary distant chiropteran suborders. We did detect Nycteria parasites in both rhinolophid and nycterid bat hosts in geographically separate areas of Sub-Saharan Africa, however our molecular phylogenetic analyses support the separation of the parasites into two distinct clades corresponding to their host genera, suggestive of ancient co-divergence and low levels of host switching. For one clade of these parasites, cytochrome b genes could not be amplified and cytochrome oxidase I sequences showed unusually high rates of evolution, suggesting that the mitochondrial genome of these parasites may have either been lost or substantially altered. This haemosporidian parasite-mammalian host system also highlights that sequential population expansion in the liver and gametocyte formation is a successful alternative to intermediate erythrocytic replication cycles
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Audience level: 0.43 (from 0.42 for Mammal spe ... to 0.99 for Crowding i ...)

Mammal species of the world : a taxonomic and geographic reference
Alternative Names
DeeAnn M. Reede Zoologin und Mammalogin

DeeAnn M. Reeder zoolog

DeeAnn M. Reeder zoöloge en mammaloge

English (39)

French (1)