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Habitat analysis and foods of shrews in East Central Illinois /Blackburn, Lisa D. January 1988 (has links) (PDF)
Thesis (M.S.)--Eastern Illinois University, 1988. / Includes bibliographical references (leaves 15-17).
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Variation in an isolated population of shrews of the Vagrans-Obscurus groupJackson, Mary Fairfield January 1951 (has links)
A study of shrews of the genus Sorex was undertaken at Point Grey, Vancouver, B.C. Trapping commenced in October 1949 and was continued except for brief periods until May 1951. A total of 1296 small mammals, including 670 shrews were obtained during the period. In the laboratory the animals were examined for parasites and condition of the reproductive system. Standard skull and body measurements, and counts of the number of caudal vertebrae were made on all shrews. Complete separation of the two species of shrews reported to be present on the campus ( Sorex vagrans and Sorex obscurus ) was found to be impossible on the basis of these measurements, even when sex and age of the animals were considered. An arbitrary separation of 95 percent of the material based on tail length and length of the maxillary tooth row was achieved. Differences in pelage were apparent, but not sufficient to separate the two species. Intergradation in all morphological features was taken as evidence that the two species are hybridizing to a considerable extent. Some evidence that the breakdown of mechanisms isolating the two populations has not been complete is presented. Hybridization in a local population such as the one studied was not considered a sufficient basis to change the specific status of S. vagrans and S. obscurus. Further study of these two species in other areas where they coexist in the same habitat is indicated. / Science, Faculty of / Zoology, Department of / Graduate
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Ecological adaptations in two species of shrewsHawes, Myrnal Leong January 1975 (has links)
Life history strategies and ecological adaptations of two similar species of shrews (Sorex vagrans vagrans and Sorex obscurus setosus) were examined in southwestern British Columbia in an attempt to understand 1) how they are able to coexist in sympatry, 2) what kinds and degrees of interspecific competition are evident, and 3) how strategic responses to selective pressures differ between species and among habitats. A trap and recapture program allowed the study of population dynamics and individual life histories of the two species in a forest situation where they were sympatric. Standardized snap-trap lines were set through several habitat types to ascertain basic distributional patterns and habitat preferences of each species. Finally, the collection and specimen preparation of extensive series of Sorex vagrans from lowland grassy fields facilitated
examination of seasonal and geographic variation in morphology and reproductive strategy.
Sorex vagrans and Sorex obscurus share a common life history pattern, several features of which were examined in detail with reference to their adaptive significance. Many adaptations were considered in terms of energy limitations. Both intra- and interspecific territoriality were evident in non-breeding (first year) individuals of each species. Home range analysis, using an elliptical model, reflected the abandonment of territoriality in breeding adults as home
range size increased. My conclusions are that strong site attachment and the establishment of territories during the non-breeding time of life serve to ensure the territory holder sufficient food for overwintering.
Species distributions and habitat analyses show that, although the two species overlap geographically, competition is mitigated through, habitat segregation at the microgeographic level, with soil type and the associated soil fauna appearing to be significant factors. Sorex vagrans is competitively superior in the relatively richer soils, while Sorex obscurus has the advantage in the more acidic soils.
Intraspecific comparison of forest- and grassland-inhabiting. Sorex vagrans reveal basic differences in reproductive strategy. The attainment of sexual maturity in first year females is relatively common in lowland grassland habitat, whereas no such case is documented in forest habitat. The shorter generation, time appears to be an adaptive response to a situation where food-is less limiting and the reproductive season is longer.
Ecological strategies and their evolution in forest and grassland populations, and the significance of evolutionary ecology to shrew systematics are discussed in light of the findings. / Science, Faculty of / Zoology, Department of / Graduate
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Improving livetrapping methods for shrews (Sorex spp.)Stromgren, Eric Johnston 05 1900 (has links)
Known for their high metabolism, shrews possess an incessant need to eat high
quality foods. This drives much of the biology of shrews and has caused great difficulties
when attempting to study shrews using mark-recapture methods. I reviewed the literature
and identified potential causes of varied trappability in small mammals. Weather related
factors were important in determining activity levels and thus trappability. Social
relationships (both inter- and intraspecific) were found to contribute to trappability, in
some cases with dominant individuals completely excluding subordinates from traps.
Trap type was the easiest factor for a researcher to vary, and thus received most of the
attention in the published literature. Sherman, pitfall, and Longworth traps were
commonly used, and although pitfall traps are commonly used as removal traps, there is
the potential for their use as live traps. The pitfall and Longworth traps seemed the most
appropriate for capture of particularly small mammals, especially shrews; however
comparisons between these three trap types were confounded by differing methods used
for each trap type, and small sample sizes. I tested the relative efficiencies of pitfall and
Longworth traps for livetrapping vagrant shrews (Sorex vagrans), and found the
Longworth trap to be much more efficient, capturing up to five times as many individual
shrews as pitfall traps. I also tested the utility of addition of mealworms as food for
shrews, and the effect of increased trap check frequency on the trap mortality rates of
vagrant shrews. The addition of mealworms significantly reduced mortality rates, and the
addition of one midday trap check, so that traps were not left open for more than 8 h,
reduced overall trap mortality rates in mealworm baited traps from nearly 60% (in non
mealworm baited traps, checked at 12 h intervals) to less than 10%. Finally, I tested the
effect of drift-fences on capture rates of shrews in pitfall and Longworth live traps on
riparian and upland traplines. I found no significant differences between the trap types, or
between traps equipped with drift-fences, and those without. However, any effect would
have been masked by overall low trap success during this experiment.
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Improving livetrapping methods for shrews (Sorex spp.)Stromgren, Eric Johnston 05 1900 (has links)
Known for their high metabolism, shrews possess an incessant need to eat high
quality foods. This drives much of the biology of shrews and has caused great difficulties
when attempting to study shrews using mark-recapture methods. I reviewed the literature
and identified potential causes of varied trappability in small mammals. Weather related
factors were important in determining activity levels and thus trappability. Social
relationships (both inter- and intraspecific) were found to contribute to trappability, in
some cases with dominant individuals completely excluding subordinates from traps.
Trap type was the easiest factor for a researcher to vary, and thus received most of the
attention in the published literature. Sherman, pitfall, and Longworth traps were
commonly used, and although pitfall traps are commonly used as removal traps, there is
the potential for their use as live traps. The pitfall and Longworth traps seemed the most
appropriate for capture of particularly small mammals, especially shrews; however
comparisons between these three trap types were confounded by differing methods used
for each trap type, and small sample sizes. I tested the relative efficiencies of pitfall and
Longworth traps for livetrapping vagrant shrews (Sorex vagrans), and found the
Longworth trap to be much more efficient, capturing up to five times as many individual
shrews as pitfall traps. I also tested the utility of addition of mealworms as food for
shrews, and the effect of increased trap check frequency on the trap mortality rates of
vagrant shrews. The addition of mealworms significantly reduced mortality rates, and the
addition of one midday trap check, so that traps were not left open for more than 8 h,
reduced overall trap mortality rates in mealworm baited traps from nearly 60% (in non
mealworm baited traps, checked at 12 h intervals) to less than 10%. Finally, I tested the
effect of drift-fences on capture rates of shrews in pitfall and Longworth live traps on
riparian and upland traplines. I found no significant differences between the trap types, or
between traps equipped with drift-fences, and those without. However, any effect would
have been masked by overall low trap success during this experiment.
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Improving livetrapping methods for shrews (Sorex spp.)Stromgren, Eric Johnston 05 1900 (has links)
Known for their high metabolism, shrews possess an incessant need to eat high
quality foods. This drives much of the biology of shrews and has caused great difficulties
when attempting to study shrews using mark-recapture methods. I reviewed the literature
and identified potential causes of varied trappability in small mammals. Weather related
factors were important in determining activity levels and thus trappability. Social
relationships (both inter- and intraspecific) were found to contribute to trappability, in
some cases with dominant individuals completely excluding subordinates from traps.
Trap type was the easiest factor for a researcher to vary, and thus received most of the
attention in the published literature. Sherman, pitfall, and Longworth traps were
commonly used, and although pitfall traps are commonly used as removal traps, there is
the potential for their use as live traps. The pitfall and Longworth traps seemed the most
appropriate for capture of particularly small mammals, especially shrews; however
comparisons between these three trap types were confounded by differing methods used
for each trap type, and small sample sizes. I tested the relative efficiencies of pitfall and
Longworth traps for livetrapping vagrant shrews (Sorex vagrans), and found the
Longworth trap to be much more efficient, capturing up to five times as many individual
shrews as pitfall traps. I also tested the utility of addition of mealworms as food for
shrews, and the effect of increased trap check frequency on the trap mortality rates of
vagrant shrews. The addition of mealworms significantly reduced mortality rates, and the
addition of one midday trap check, so that traps were not left open for more than 8 h,
reduced overall trap mortality rates in mealworm baited traps from nearly 60% (in non
mealworm baited traps, checked at 12 h intervals) to less than 10%. Finally, I tested the
effect of drift-fences on capture rates of shrews in pitfall and Longworth live traps on
riparian and upland traplines. I found no significant differences between the trap types, or
between traps equipped with drift-fences, and those without. However, any effect would
have been masked by overall low trap success during this experiment. / Land and Food Systems, Faculty of / Graduate
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A comparative study of communication in six taxa of southern African elephant-shrews (macroscelididae)Faurie, Alida Susanna. January 1996 (has links)
Aspects of olfactory, auditory, visual and tactile communication were investigated in five
Elephantulus species (E. brachyrhynchus, E. edwardii, E. intuft, E. myurus, E. rupestris) and
Macroscelides proboscideus, facilitating comparisons among species and genera. The
purpose of this study was to determine whether species specific patterns of communication
could be identified in the southern African elephant-shrews.
Scent gland structure and location was investigated to determine whether species specific
differences existed and to relate gland location to marking behaviour. Prominent scent glands
were found in the oral angel, foot pads, anogenital region and tail of all elephant-shrew
specIes. Marking behaviours such as sandbathing, digging and anal dragging correlated
strongly with sent gland location, but no glandular size and/or structural differences were
apparent among the different elephant-shrew species. Species specific differences in marking
frequencies did exist among the six elephant-shrew taxa, but were unrelated to glandular
development. Choice chamber preference tests indicated that Elephantulus species preferred
conspecific odours, with males showing higher levels of discrimination than females .
Audible vocalizations and footdrumrning were investigated and compared in the sex elephant shrew taxa. Distinct differences were present in the acoustic repertoires of the southern
African elephant-shrew species. Footdrumming showed very clear species specific patterns,
and footdrumming characteristics were compared with an existing morphological phenogram
to derive a possible path of evolution for footdrumming. Visual and tactile communication were investigated by analysis of frequencies and sequences
of behavioural acts. A comparison of male-female interactions of the different taxa showed
differences in behavioural frequencies both between males and females of a species, and
among the different species. Discriminant function analysis showed clear species specific
patterns in the visual! tactile signalling systems of southern African elephant-shrews, and this
was more clearly defined in males.
Elephant-shrews showed higher levels of aggressive behaviour in interspecific encounters,
indicating a possible role of aggression as a premating isolating mechanism between species.
However, no differences in aggressive behaviour between allopatric and sympatric malefemale
interactions could be discerned. Elephant-shrew males showed high frequencies of
submissive behaviour in intraspecific encounters, which may be a strategy to reduce aggression
in conspecific females.
Species specific patterns of behaviour were found to exist in all three modes of communication
investigated, and may all act to some extent as premating isolation mechanisms between
species. However, many of these patterns are very subtle and it is suggested that a
combination of all sensory modalities act together to form each species' signalling system. / Thesis (Ph.D.)-University of Natal, Pietermaritzburg, 1996.
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Nerve growth factor from the shrew (Suncus murinus).January 1985 (has links)
by Yuk-Yee Tam. / Bibliography: leaves 124-132 / Thesis (M.Ph.)--Chinese University of Hong Kong, 1985
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Epidermal growth factor from the shrew (Suncus murinus) and other sources.January 1985 (has links)
by Tai-Tung Yip. / Bibliography: leaves 191-199 / Thesis (Ph.D.)--Chinese University of Hong Kong, 1985
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A morphometric analysis of geographic variation within Sorex monticolusAlexander, Lois F. 31 March 1994 (has links)
Shrews previously recognized as Sorex monticolus were classified
into two species (one with 14 subspecies, the other monotypic) on
the basis of a morphometric analysis of 3610 individuals from
throughout their range. Sorex m. neomexicanus has been recognized
previously as a subspecies of Sorex monticolus but is recognized
herein as a distinct species. This taxon occurs in the Sacramento
and Capitan mountains of New Mexico. This region possibly acted as
a boreal-forest refugium for S. monticolus-type shrews during the
Pleistocene glaciation, and during the warmer interglacial period,
after the most recent glaciation, the valleys became too arid for
survival and these shrews survived in forested, montane regions of
New Mexico. These mountains are sufficiently isolated from other
mountainous regions in the state to reduce or eliminate gene flow
between these populations of shrews. S. monticolus as defined
herein exhibits relatively little morphometric variation. Even
among nominate races, the only obvious morphometric variation is a
north-south cline in greatest length of skull. There is a general
trend of increasing size from south to north. The southern
subspecies restricted to isolated mountains (S. m. monticolus and S.
m. parvidens) have the shortest skull lengths of all S. monticolus.
The subspecies found in the northern coastal and insular areas of
southeast Alaska and British Columbia (S. m. longicaudus, S. m.
prevostensis, S. m. malitiosus, S. m. insularis, S. m. calvertensis,
S. m. alascensis, and S. m. elassodon) have the longest skulls. S.
m. setosus, S. m. isolatus, S. m. soperi, S. m. obscurus and S. m.
shumaginensis all have skulls of intermediate length. Insular and
coastal populations of S. monticolus have longer skulls than the S.
monticolus that occupy the mainland. Shrews with long skulls that
occur on the mainland (S. m. longicaudus and S. m. alascensis) also
occur on some islands, and the mainland portion of their
distributions are restricted to a narrow band along the coasts of
Alaska and British Columbia. The southernmost subspecies of S.
monticolus with short skulls are restricted to small montane
islands. The morphometric variation among nominate races is
sufficient to warrant continued separation at the subspecies level
of all taxa except S. m. calvertensis and S. m. elassodon. Were it
not for differences in pelage color, based on my morphometric
analysis, S. m. calvertensis and S. m. elassodon should be
synonomyzed. / Graduation date: 1994
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