An Index of Biotic Integrity for Macroinvertebrates and Salamanders in Primary Headwater Habitat Streams in Ohio

Moore, Edward L., Jr.

15 January 2010

No description available.

Environmental Science

Index of Biotic Integrity

Invertebrate Community Index

Salamander Community Quality Index

PHWH Community Quality Index

Elevational differences in UV-B response by the long-toed salamander (Ambystoma macrodactylum)

Thurman, Lindsey L.

08 June 2012

Global amphibian declines have been attributed to numerous and often synergistic causes, such as invasive species, pathogens, and ultraviolet-B (UV-B) radiation. The effects of these stressors are context dependent and can vary with location, species, and populations. As sensitivity to UV-B has shown inconsistencies across amphibian taxa, it can be expected that variation also occurs between populations of a single species. High elevation populations of the long-toed salamander (Ambystoma macrodactylum) face exponentially higher UV-B radiation levels relative to low elevation populations and these levels are predicted to increase in conjunction with continued ozone depletion. We hypothesized that breeding long-toed salamander females at high elevations have modified oviposition behavior to better protect embryos from UV-B induced damage. In addition, we hypothesized that long-toed salamander embryos at high elevation would exhibit elevated photolyase activity, a photo-reactivating enzyme that repairs UV-B radiation-induced damage to DNA. We predicted that this behavioral defense strategy would be employed together with an elevated physiological response as a correlated defense response to increased levels of UV-B radiation in high elevation populations. We surveyed high and low elevation long-toed salamander breeding sites throughout Oregon to quantify oviposition site characteristics and associated UV-B profiles. We simultaneously collected embryos for quantification of photolyase activity in a bacterial transformation assay. We found significant differences in oviposition behavior across elevations, with high elevation breeding females ovipositing in deeper water and using UV-B protective refugia. Oviposition sites at low elevations, however, were most often found in UV-B exposed microhabitats located at the surface of the water. This population difference in oviposition behavior resulted in a standardization of UV-B and temperature conditions for long-toed salamander embryos across elevation. In contrast, we found no population differentiation in photolyase activity between high and low elevation breeding sites. This indicates that behavioral selection for UV-B protected oviposition substrates may either be negating the need for increased photolyase activity in long-toed salamander embryos, or that populations lack the capacity to adapt a heightened physiological response to UV-B at high elevations. Together, these results show how trade-offs in physiology and behavior are a unique adaptation to a significant environmental stressor. Further research into the susceptibility of amphibian species to changing environmental conditions may help to demonstrate the effectiveness of correlated trait responses and plasticity in behavior, and species persistence under changing climate regimes. / Graduation date: 2012

long-toed salamander

Ambystoma

ultraviolet-B radiation

elevation

amphibian

Amphibian declines -- Oregon

The Role of Forest Composition on Pool-breeding Amphibians: Colonization, Larval Communities, and Connectivity

Graziano, Michael Paul

10 August 2017

No description available.

Biology

Ecology

Environmental Management

Environmental Science

Forestry

Freshwater Ecology

Wildlife Conservation

Wildlife Management

Climate Change

amphibian

salamander

ambystoma

larvae

vernal pool

constructed wetland

forest

ecosystem

climate change

community

forest management

leaf litter

conservation

allochthonous

amphibian decline

restoration

EFFECTS OF FOREST MANAGEMENT ON TERRESTRIAL SALAMANDERS IN A MIDWEST HARDWOOD ECOSYSTEM

Alison E Ochs (17118751)

13 October 2023

<p dir="ltr">To examine how forest management affects terrestrial salamanders, this dissertation: (1) examines the effects of timber harvesting strategies on salamanders; (2) examines the effects of prescribed fire for oak regeneration on salamander populations; and (3) explores the influence of artificial cover object (ACO) wood type, size and shape, and placement on salamander monitoring results. These projects were conducted at the Hardwood Ecosystem Experiment (HEE) and Martell Experimental Forest in Indiana. Long-term salamander monitoring data from the HEE were used to examine the effects of clearcuts, shelterwoods, and patch cuts on salamander captures collected up to eleven years post-harvest and were analyzed with a before-after-control-impact (BACI) design. Clearcuts and patch cuts had negative effects on salamanders 4-6 years post-harvest, which coincided with a drought; however, preparatory and establishment shelterwood harvests showed no effects on salamander captures, suggesting that retaining canopy cover may protect salamanders from compound disturbances such as drought. Also at the HEE, capture-recapture techniques were used to examine salamander population estimates before and after fire. Only two of three fires affected salamander populations. In the short term, prescribed fire effects on salamanders may be weak and intermittent and microclimate may have a greater effect on populations, although the longer-term effects of fire remain unknown. At Martell Experimental Forest, salamander numbers were compared beneath ACOs of different wood types, sizes and shapes, and grid arrays of different spacings. Pine ACOs were preferred over ash, while several small ACOs yielded equal salamander numbers to one large ACO of equal total area. High ACO density may increase capture probability but reduce the area sampled by each ACO, while lower density ACO grids may cover a larger area with the same sampling effort and produce more comparable results, but with less precision; choice of ACO experimental design will therefore require careful consideration of management goals. This dissertation also suggests strategies to support salamander populations as guidelines for managers to consider in management planning.</p>

Forestry fire management

Forestry management and environment

Environmental assessment and monitoring

Wildlife and habitat management

Salamander monitoring

Salamanders

Amphibians

Before-after-control-impact

timber harvesting practices

forest management

clearcut logging silvicultural practices

shelterwood

patch cut

drought

Compound disturbance

coarse woody debris

prescribed fire

Controlled burns

capture-recapture analysis

Artificial cover objects

coverboards