Biogeography of Montane Mammals on the Colorado Plateau and Adjacent Regions

Carr, Carla B.

05 1900

This study identifies the biogeographic factors that structure small mammal communities on mountains of the Colorado Plateau and adjacent regions. Forty six isolated ranges were characterized across a 5-state study area encompassing the Colorado Plateau, including the central high plateaus of Utah and the Basin and Range Province (i.e. the Great Basin and mountains of Arizona and New Mexico). Presence/absence data of 25 montane mammal species were used to explore the interactions between historical and ecological processes affecting local and regional diversity patterns. Multivariate analyses, such as non-metric dimensional scaling, were used to explore factors which influence community composition. Results of these analyses revealed the Colorado River as a significant biogeographic barrier that affects montane mammal community structure. MtDNA cytochrome b sequence variation was analyzed among populations of the long-tailed vole, Microtus longicaudus, sampled from five interior ranges of the Colorado Plateau- Abajo, LaSal, Henry, and Chuska Mts., and Boulder Mountain of the Aquarius Plateau-and analyzed using traditional phylogenetic approaches (parsimony and likelihood) as well as nested clade analysis. Results support previous documentation of a major east-west phylogeographic break occurring between populations southeast of the Colorado River (eastern Arizona, Colorado, Wyoming and New Mexico) and all other western populations, which include a central clade, a northwest clade, and an Alaskan island clade. Evidence also supports differentiation of a 'southern Rockies' clade and a distinct 'southwest island' clade. Populations of M. longicaudus north and west of the Colorado River (Boulder and Henry Mts.) share two haplotypes, form a well-supported subclade with populations from the Kaibab plateau, and are closely related to the Northwest clade. Past approaches to studying montane mammal communities utilizing theory based on island biogeography have overemphasized area and isolation as the only forces structuring insular communities. As a result, there has been a lack of recognition of the influences of environmental factors, species turnover, and barriers that create and maintain regional diversity on the Colorado Plateau and adjacent areas.

biogeography

Colorado Plateau

mammals

An investigation of matrix population model assumptions : wrens (Troglodytes troglodytes) as a case study

Trinder, Mark Nicholas

January 2003

A simulation matrix population model of a small population of wrens (Troglodytes troglodytes) is presented. The field work methods used to obtain and analyse the demographic rates are provided. This includes a description of the use of miniature radio tags to track juvenile (post-fledging) survival and dispersal, and capture mark recapture analysis of an eight year dataset to estimate adult survival rates, taking into account environmental variation and density dependence. Age related reproductive rates were obtained from detailed nest surveys. Using these demographic rates (means and variances), and information on density dependence in survival and breeding, a simulation matrix model was developed using Matlab (The MathWorks, Inc.). The operation of this model and its outputs are explained in detail, with particular reference to the methods employed to incorporate both density dependent survival and reproduction and environmental and demographic stochasticity. This model is then used to illustrate how, under plausible conditions of density dependence and stochasticity, large discrepancies are obtained between the deterministic, density independent elasticities of the population growth rate (λ) and the stochastic, density dependent elasticities of the equilibrium population size, extinction probability and invasion exponent. Since the elasticities of λ are often used to guide the management of endangered species, these results are particularly relevant to workers in the field of rare species conservation. While the importance of including environmental variation in the form of stochastic population simulations seems to now be generally accepted, the role of density dependent population regulation is still infrequently considered. Since one of the most common causes of population decline is habitat destruction, leading to an increase in population density within the remaining areas of habitat, this omission may rarely be justified. It is recommended that when elasticity analysis is conducted as part of species conservation efforts, both density dependence and stochasticity are included. Failure to do so may result in the misguided management of endangered species.

598.8331788

A seasonal distribution study of muscoid flies of Kansas

Ratcliff, Charles Stuart.

January 1959

Call number: LD2668 .T4 1959 R39

Parasites--Kansas.

Muscidae.

Insects--Geographical distribution.

Masters theses

Distribuição geográfica de abelhas e plantas associadas através de modelagem computacional / Geographical distribuition of associated bees and plants through computational modeling

Giannini, Tereza Cristina

06 September 2011

As abelhas e plantas apresentam diferentes graus de especialização em suas interações. Parceiros mais especialistas frequentemente apresentam uma história evolutiva mútua e sobreposição nas áreas de ocorrência. No entanto, a estrutura espacial dos ambientes nos quais esses grupos se distribuem é caracterizada por padrões complexos e dinâmicos. Para analisar a influência dos fatores que atuam na distribuição de espécies de abelhas e plantas associadas foram utilizadas a modelagem de distribuição de espécies, análise multivariada e ferramentas de sistemas de informações geográficas. Os resultados indicaram que a distribuição de gêneros estritamente associados, como é o caso de Peponapis e Cucúrbita, é influenciada pelo clima das áreas de ocupação, bem como provavelmente, por sua história evolutiva e pela domesticação das abóboras (Cucúrbita). Já os gêneros Krameria e Centris apresentam um padrão mais intrincado de distribuição, uma vez que a interação entre ambos é mais complexa. Centris é um grupo diverso que utiliza recursos florais de outras famílias botânicas além de Krameriaceae, o que provavelmente influencia seus padrões de distribuição. No entanto, os resultados obtidos para Krameria demonstraram de maneira geral, a influência de características climáticas na distribuição do grupo e uma provável dependência maior de Centris em alguns casos. Finalmente, foi também demonstrada a importância da inclusão de dados bióticos no processo da modelagem de distribuição, resultando no aumento da acurácia dos modelos e na alteração da projeção da distribuição para o futuro, considerando-se um cenário de mudança climática. Os resultados foram mais conspícuos quando foram consideradas interações mais estreitas entre espécies de abelhas parasitas e hospedeiras do gênero Bombus, do que entre Centris e Krameria. As técnicas utilizadas, em especial a modelagem de distribuição, representaram uma importante contribuição para a análise efetuada. No entanto, embora crescentemente utilizada, a modelagem de distribuição de espécies demanda técnicas e testes mais robustos para avaliar a acurácia dos modelos gerados. Além disso, um desafio adicional a ser vencido consiste no aumento e melhoria da qualidade dos pontos de ocorrência das espécies, principalmente no Brasil. Faz-se necessário um esforço adicional de coleta, especialmente em algumas áreas específicas, bem como, a conservação e digitalização dos dados das coleções biológicas. Porém, as técnicas utilizadas mostraram um grande potencial a ser explorado em outras análises, envolvendo questões biológicas diferentes, ou outros grupos taxonômicos e camadas de dados. / Bees and plants present different degrees of specialism in their interactions. More specialized partners generally present a mutual evolutionary history and overlap with their occurrence areas. Nevertheless, the spatial structure of environments occupied by them is characterized by complex and dynamic patterns. Species distribution modelling, multivariate analyses and geographical system information tools were used in order to analyze the influence of different factors that act in the geographical distribution of associated bees and plants. Results showed that the geographical distribution of close associated genera, such as Peponapis and Cucúrbita are influenced by the clime of occurrence areas, and also, by their evolutionary history and cucurbits domestication (squashes and pumpkins). On the other hand, Centris and Krameria genera presented a more intricate distribution pattern, since their interaction is more complex. Centris is a diverse group that uses other floral resources than those provided by the Krameriacea family, which has probably influenced its distribution, also. However, the results obtained for Krameria showed the influence of clime in its distribution and a stronger relationship with Centris in some cases. Finally, the importance of including biotic data in the species distribution modelling process was also demonstrated, resulting in a general increase in the models accuracy and also altering future scenarios projection, considering climate changes. Stronger interaction, such as the host-parasite bee species of Bombus showed more conspicuous results than those found for Krameria and Centris. The techniques, especially distribution modelling, made an important contribution to the analyses. However, in spite of being increasingly used, distribution modelling demands more robust tests and techniques to evaluate the accuracy of final models. Besides, an additional challenge to be achieved consists in the increase and improvement of species occurrence data, mainly in Brazil. An additional survey effort is necessary, especially in specific areas, as well as the conservation and data digitalization of biological collections. However, the techniques used here showed a great potential to be further explored in other analyses, involving different biological issues, other taxonomic groups and other data layers.

Abelhas

Bee

Distribuição geográfica

Geographical distribution

Modelagem preditiva

Predictive modelling

The global ecology of bird migration : patterns and processes

Somveille, Marius

January 2015

No description available.

590

Remotely sensed solutions for plant diversity conservation

Baena, Susana

January 2018

Global change is happening at a staggering pace and the impact that change is having in the loss of plant biodiversity is unprecedented. The latest reports on the state of the world’s plants indicate that they face intensifying threats and biodiversity loss on a global scale. However, this rapid global change is also bringing extraordinary technological developments to all scientific fields. Earth Observation by Remote Sensing is undergoing a fast expansion and its capacity to monitor and analyse global environmental changes and their impact in biodiversity is ever growing. This research analyses the current and potential role of Earth Observation in the conservation of plant diversity, identifying the latest technological developments with the greatest potential use in this field. Looking into a plant conservation organisation and through a series of case studies covering a range of spatial and temporal scales, this research brings the latest Remote Sensing technology to the plant conservation community. From collecting and processing very high resolution data for local conservation projects to help determine conservation status of a country’s unique ecosystem to tracking and reporting on global plant conservation targets this research demonstrates that Remote Sensing is instrumental for addressing the observation needs of the plant conservation community.

The biogeography of Oregon white oak (Quercus garryana) in central Oregon

Voeks, Robert Allen

01 January 1981

The study proceeded as follows: The distribution of Q. garryana was mapped through field reconnaissance. Annual rings from fifteen trees were counted in order to establish age versus trunk diameter ratios. This greatly simplified the dating of trees. Transects were then run through individual groves to determine population age structures. These age structures, along with Q. garryana's distribution patterns, were graphically compared with historic temperature, precipitation, and growing season data. The effect of livestock grazing on oak reproduction was examined. Potential vagility of the species was evaluated by estimating the potential for acorn dispersion by airfall, streams, vertebrates, and the human (aboriginal) population. Finally, pollen evidence was scrutinized in conjunction with acorn dispersal rates in order to determine the longer term history of Q. garryana in this portion cf its range.

Oregon oak

Geography

Spatial Science

Space use by vervet monkeys (Cercopithecus aethiops) and its consequences for the genetic structure of the Barbados population

Richardson, Karen S.

January 1990

No description available.

Population genetics.

Cercopithecus -- Barbados.

Temporal and spatial variability in onshore cod (Gadus morthua) migrations : associations with atmosphere-ocean dynamics and capelin (Mallotus villosus) distributions

Rose, George A.

January 1988

No description available.

Capelin -- Geographical distribution.

Codfish -- Behavior -- Climatic factors.

Codfish -- Migration.

Survey of leafhoppers (Homoptera: Cicadellidae) in integrated production and non-integrated production vineyards of western Oregon using yellow sticky traps and sweep net methods

Viguers, Leslie M.

08 September 2000

Leafhoppers (Homoptera: Cicadellidae) were surveyed in Western Oregon vineyards in 1999. Four sites were sampled for leafhoppers using a sticky trap method, and 29 vineyards were sampled for leafhoppers using a sweep net method in the summer of 1999. The sticky trap and sweep net methods were chosen based on cost, ease of use, and the fact that they are commonly used tools available for growers and IPM programs. Populations varied according to sample method, date, location, height, agricultural practices, and growing region. Each method resulted in the capture of different leafhopper species. Sticky traps attracted, and caught mobile insects such as the winged adults. The sweep net captured leafhoppers of all stadia from the vegetation. There was seasonal variation seen for each leafhopper group. Greatest numbers of leafhoppers were caught on the border and edges of the vineyard, presumably because of the surrounding vegetation providing refuge and food. The height of catch was dependent upon the preferred host plant of the leafhopper. Species that feed on the grapevine were generally found in the canopy from 90 to 150 cm above the soil surface. Vineyard management influenced abundance and diversity within the sites. Those vineyards using the least input had the highest diversity and lowest overall abundance of leafhoppers. Chemical use, irrigation, and cover crop choice influenced the species composition of the vineyard. The sites to the south of the Willamette Valley had a higher abundance of the species Psamotettix sp. The community structure of leafhoppers appeared to be more similar in the southern sites to California. The vineyards that had a diverse mix of plants in the cover crop had a more diverse population of leafhoppers. Most species found in this study feed on herbaceous plants that are common as vineyard ground cover. The cover crop that most low input management sites use may increase the number of leafhoppers that feed on the vine, but the presence of a cover crop has many advantages in the vineyard system. / Graduation date: 2001

Leafhoppers -- Behavior -- Oregon

Vineyards -- Oregon

Leafhoppers -- Geographical distribution