Landscape and Local Influences on the Biotic Integrity of Fish Communities in Ohio Headwater Streams PDF Download
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Author: Donna S. McCollum
Publisher:
ISBN:
Category : Biotic communities
Languages : en
Pages : 162
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Book Description
Stream ecosystems are holistic systems that incorporate disturbances and abiotic influences at many spatial and temporal scales. This view supports a three-tiered model of variables that determine biotic integrity in streams, with causes and effects flowing from large-scale to fine-scale processes. Tier One characteristics include variables important at the scale of geomorphological processes and land use over entire watersheds. These variables largely determine Tier Two factors, abiotic conditions in a stream reach. Tier Two variables, in turn, largely structure the Tier Three variables, the stream's biotic communities. Through field studies and GIS analysis, relationships among these three tiers of variables were examined in this research to explore the question of how agriculture exerts its influence on stream fishes. This study investigated 27 streams, in two ecoregions and the transition area, or ecotone, between them, in south-central Ohio. The study design allowed questions to be asked concerning the relative influence of geomorphology and land use in varied landscapes, as well as relative impacts of watershed versus riparian land use. The region also contained relatively equal proportions of three types of agriculture (hay, row crops, and pasture) allowing the study to address the question of which land use might be most harmful to stream fish. This study supported the importance of row crop agriculture, finding it to be the most degrading type of agriculture for stream fish, but also found pasture to be an important causal factor in stream community degradation. This study also supported the importance of riparian buffers, finding riparian agriculture to be more degrading than agriculture over the entire watershed. A more interesting finding is the suggestion that a minor amount of nutrient enrichment from agricultural land use may benefit streams that are naturally oligotrophic. A possible mechanism could be increased primary production, which increases macroinvertebrate density, and provides a larger food base for fishes. This study also reports the possible existence of a biodiversity "hotspot" in the transitional region between the two ecoregions. Some evidence exists that greater habitat heterogeneity increases species richness, suggesting a possible cause for higher biodiversity in this ecotonal region. Since habitat heterogeneity over whole streams was not measured in this study, both the existence and mechanism of such a hotspot needs more study. A final conclusion is that geomorphology and agricultural land use may be equally important in structuring stream conditions, and thus, biological stream communities. This study illustrates the difficulties associated with overlapping causes and effects in complex systems such as streams and their catchments. Several variables in the study reported here required examination at multiple scales and with multiple statistical techniques in order to understand relationships that varied across different regions. The effects of a particular agricultural variable were not always equal in the diverse landscapes of southern Ohio. Lotic ecologists must examine a variety of ecoregions, and incorporate a variety of scales with a variety of analytic tools, if predictive stream ecology is to become a reality.
Author: Donna S. McCollum
Publisher:
ISBN:
Category : Biotic communities
Languages : en
Pages : 162
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Book Description
Stream ecosystems are holistic systems that incorporate disturbances and abiotic influences at many spatial and temporal scales. This view supports a three-tiered model of variables that determine biotic integrity in streams, with causes and effects flowing from large-scale to fine-scale processes. Tier One characteristics include variables important at the scale of geomorphological processes and land use over entire watersheds. These variables largely determine Tier Two factors, abiotic conditions in a stream reach. Tier Two variables, in turn, largely structure the Tier Three variables, the stream's biotic communities. Through field studies and GIS analysis, relationships among these three tiers of variables were examined in this research to explore the question of how agriculture exerts its influence on stream fishes. This study investigated 27 streams, in two ecoregions and the transition area, or ecotone, between them, in south-central Ohio. The study design allowed questions to be asked concerning the relative influence of geomorphology and land use in varied landscapes, as well as relative impacts of watershed versus riparian land use. The region also contained relatively equal proportions of three types of agriculture (hay, row crops, and pasture) allowing the study to address the question of which land use might be most harmful to stream fish. This study supported the importance of row crop agriculture, finding it to be the most degrading type of agriculture for stream fish, but also found pasture to be an important causal factor in stream community degradation. This study also supported the importance of riparian buffers, finding riparian agriculture to be more degrading than agriculture over the entire watershed. A more interesting finding is the suggestion that a minor amount of nutrient enrichment from agricultural land use may benefit streams that are naturally oligotrophic. A possible mechanism could be increased primary production, which increases macroinvertebrate density, and provides a larger food base for fishes. This study also reports the possible existence of a biodiversity "hotspot" in the transitional region between the two ecoregions. Some evidence exists that greater habitat heterogeneity increases species richness, suggesting a possible cause for higher biodiversity in this ecotonal region. Since habitat heterogeneity over whole streams was not measured in this study, both the existence and mechanism of such a hotspot needs more study. A final conclusion is that geomorphology and agricultural land use may be equally important in structuring stream conditions, and thus, biological stream communities. This study illustrates the difficulties associated with overlapping causes and effects in complex systems such as streams and their catchments. Several variables in the study reported here required examination at multiple scales and with multiple statistical techniques in order to understand relationships that varied across different regions. The effects of a particular agricultural variable were not always equal in the diverse landscapes of southern Ohio. Lotic ecologists must examine a variety of ecoregions, and incorporate a variety of scales with a variety of analytic tools, if predictive stream ecology is to become a reality.
Author:
Publisher:
ISBN:
Category : Agricultural conservation
Languages : en
Pages : 380
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Book Description
"The bibliography is a guide to recent scientific literature covering effects of agricultural conservation practices on fish and wildlife. The citations listed here provide information on how conservation programs and practices designed to improve fish and wildlife habitat, as well as those intended for other purposes (e.g., water quality improvement), affect various aquatic and terrestrial fauna"--Abstract.
Author: Edward L. Moore
Publisher:
ISBN:
Category :
Languages : en
Pages : 150
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Abstract: The use of multimetric biological indices (e.g., IBI, ICI, MIwB) to assess aquatic communities is well established in Ohio. These indices provide a definitive numeric assessment of the stream biotic communities to judge against established biocriteria in state water quality standards. However, these assessment tools cannot be applied to the smallest headwater streams of watersheds. The Ohio EPA recognizes three different types of primary headwater habitat streams (PHWH) that have watershed area 2.56 km2 and deep pools
Author: Matthew J. Diana
Publisher:
ISBN:
Category : Fish populations
Languages : en
Pages : 91
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Author: Marie Ann Schrecengost
Publisher:
ISBN:
Category : Aquatic invertebrates
Languages : en
Pages : 150
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Book Description
Abstract: Processes at various spatial and temporal scales are known to affect lotic systems and the organisms that inhabit those systems. Because processes within watersheds are interactive across spatial scales, it is important to examine these processes at multiple scales. Additionally, multiple taxa studies are necessary in ecology because each group of taxa has a very different life-history and may react differently to various processes. Studies involving multiple taxa groups have been limited by the taxonomic specialization of many ecologists. Recent studies have examined the effects of single-scale processes on one or two groups of taxa or multiple-scale processes on a single group of taxa. However, multi-scale and taxa research has been neglected. In this study, I examined the effects of hierarchical landscape properties on aquatic macroinvertebrate assemblages in four first and second order streams in the Cuyahoga Valley National Park. Processes at sub-basin, reach, and microhabitat scales were studied to determine their influence on the macroinvertebrate assemblages. Sampled biota, in addition to macroinvertebrates, included salamanders and fishes: these biota were assessed in their relationship to the same hierarchy of habitat properties. Processes at each of the scales I examined had influence in structuring each group of taxa. Macroinvertebrate families are influenced most strongly by processes at the microhabitat and reach scales. Sub-basin and reach scale properties influenced salamander assemblages, and fishes were influenced more strongly by factors relating to stream size (both sub-basin and microhabitat). Stream size factors are determined mostly by watershed area, but underlying geology and hydrology also playa role. The presence of fish had no detectable effect on macroinvertebrate structures and a negligible effect on salamander assemblages.
Author: Stephen Phillips Bowler
Publisher:
ISBN:
Category : Aquatic insects
Languages : en
Pages : 57
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Author: Sean D. Sipple
Publisher:
ISBN:
Category :
Languages : en
Pages : 213
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Headwater streams comprise the majority of the stream network, providing important ecological functions to the downstream network. Although we are beginning to understand how network structure may influence fish, our understanding of how it influences benthic macroinvertebrate dispersal and population connectivity is limited. We also know little about how these patterns and processes may be disrupted as a result of human-driven landscape change such as stream barriers to movement and creation of artificial habitats such as stormwater and farm ponds. In this study, I investigated the effect of stream network position, stream size, and local habitat on benthic macroinvertebrates, and determined to what degree road crossings and impoundments may be degrading benthic macroinvertebrate and fish communities in headwater streams. These mechanisms were explored using Maryland Department of Natural Resources, (MDNR) Maryland Biological Stream Survey (MBSS) benthic macroinvertebrate, fish, and environmental data from first-order streams in the Piedmont region of Maryland. Using an Information Theoretic Approach (ITA), models were developed based on the hypothesized relationships between benthic macroinvertebrate and fish community structure and several network and anthropogenic impact variables. Based on my results, aquatic community structure was dependent on local habitat conditions and stream network structure. Both assemblages responded negatively to roads, which may suggest an isolation effect. These results also suggest that impoundments are acting as sources for benthic macroinvertebrates and fish, including non-native species.
Author: Adam Robert Kautza
Publisher:
ISBN:
Category :
Languages : en
Pages :
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Results from my work suggest that (1) the relative importance of landscape- and local-level environmental factors, and the contribution of spatial structure, may be distinct in regions characterized by different levels of human impact, and (2) approaches that incorporate and evaluate watershed-scale processes may be particularly valuable not only for understanding complex environment-fish relationships, but also for monitoring and conservation applications related to stream fishes.
Author: Christopher Kevin Metcalf
Publisher:
ISBN:
Category : Biodiversity
Languages : en
Pages : 170
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Author: Kurt D. Fausch
Publisher:
ISBN:
Category : Fish communities
Languages : en
Pages : 53
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