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Occurrence and distribution of invertebrates in lower Logan River /Erman, Nancy A. January 1968 (has links)
Thesis (M.S.)--Utah State University. Dept. of Wildlife Resources, 1968. / Includes vita. Includes bibliographical references (leaves 68-71).
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Occurrence and distribution of invertebrates in lower Logan RiverErman, Nancy A. January 1900 (has links)
Thesis (M.S.)--Utah State University, 1968. / Title from title screen (viewed Aug. 14, 2009). Department: Wildlife Resources. Includes vita. Includes bibliographical references. Archival copy available in print.
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Evaluation of techniques of monitor wetland hydrology and macroinvertebrate community characteristicsHarenda, Mary G. 03 June 1991 (has links)
The lack of cost-effective, reliable sampling methods for many wetland
characteristics hinders efforts to describe the structural and functional
properties of wetlands. This study evaluated techniques for sampling the
subsurface hydrology and invertebrates of freshwater wetlands. The depth of
rusting on mild steel rods was compared with water well measurements to
determine the reliability of rust depth as a predictor of subsurface water levels.
An emergence trap and a benthic coring device were compared to determine
the utility of each for sampling the invertebrate fauna of a wetland.
Accuracy of the rods in estimating different water table measurements
(average, lowest, most recent) and comparability of rod data (within sets of
five rods) were investigated for different reference points on the rods,
residence times, and wetland soils. The effect of the presence of vegetation in
a soil low in organic matter on rod accuracy also was evaluated. The depth of
lowest formation of a rust band on the rods predicted average and most recent
water table depths in peat soil (r² for regressions of rust band depth on water
table depth ranged from 0.71-0.95). Estimates of average water table depths
were most precise for peat soil. Accuracy and precision were considerably
lower in sand and clay soils, but significant relationships (P < 0.10) between
depth of rust band formation and water table depth were found for all soils (r²
values for sand and clay ranged from 0.13-0.55). The presence of vegetation
had no effect on rod accuracy in the sand soil. Differences in rod
performance between residence times were not apparent. However, a rod
residence time of 4-6 weeks is recommended to balance the time necessary for
adequate rust formation on the rods and to minimize the chance of exposure
to large changes in water levels. A decrease in water table depth of
approximately 40 cm in one month in the clay wetland caused a month lag
time in rust formation. Differences in depth of rust band formation between
the five rods within replicate sets were greatest for rods from clay (mean SD
= ±7.9 cm). Variability of rust band measurements within replicate sets was
lower in peat (mean SD = ±2.3 cm) and sand (mean SD = ±2.6 cm). The
results indicated that the rusty rod technique has serious limitations and should
be applied only in situations where the use of standard methods must be
restricted.
Emergence traps and a benthic coring device were used to sample the
invertebrates of a freshwater, emergent wetland during late spring and
summer, 1989. The fauna captured by each technique, disparities between the
techniques in sampling certain taxa, and factors potentially affecting abundance
estimates were examined. In addition, the efficiency of each technique,
expressed as the number of samples required to achieve a desired level of
precision, in estimating mean abundances of the dominant invertebrate group,
the Chironomidae, was evaluated.
Total and monthly estimates of insect family richness were higher for
continuous sampling of emergence than for monthly core samples of the
benthos. Emergence traps also caught a greater variety of the insect taxa
inhabiting the wetland. The precision and efficiency of each technique in
estimating abundances of the dominant group, the Chironomidae, varied
between months and habitats (open water; vegetation). The variation was
most likely due to the natural spatial and temporal variations inherent in
invertebrate populations. The number of samples required (n[subscript r]) to estimate
mean Chironomidae abundances for the entire summer, June-September, to a
precision of D= 0.20 (equivalent to a standard error equal to 20% of the
mean), varied between techniques. Fewer sampling stations would have been
required to estimate mean adult abundances using emergence traps than would
have been required for estimates of larval abundances using benthic core
samples. Large numbers of benthic cores (27-208 individual cores per habitat)
would have generally been required for both monthly and seasonal estimates of
non-insect invertebrate abundances. Labor costs for processing emergence
samples were about 30% of those for benthic samples. Subsampling of
dominant groups in the emergence samples would have further reduced costs.
Frequent sampling throughout a season, with several different techniques,
is required to completely characterize the invertebrate community of a
wetland. This study compared two quantitative techniques for sampling
wetland insects. Continuous sampling with emergence traps provided higher
estimates of insect family richness and more precise estimates of Chironomidae
abundances at a lower cost per sample than monthly core samples of the
benthos. / Graduation date: 1992
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Determinants of macroinvertebrate community structure on stone surfaces in Hong Kong streamsShe, Shu-sheng., 佘書生. January 1993 (has links)
published_or_final_version / Zoology / Doctoral / Doctor of Philosophy
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Limitations on macroinvertebrate populations in South Florida weltandsUnknown Date (has links)
It can be difficult to disentangle the factors that determine population success in freshwater systems, particularly for organisms with disturbance-resistant life stages like aquatic invertebrates. Nevertheless, the effects of environmental variation and habitat structure on animal population success in wetlands are important for understanding both trophic interactions and biodiversity. I performed two experiments to determine the factors limiting crayfish (Procambarus fallax) and dragonfly (Family: Libellulidae) populations in wetland environments. A simulation of a dry-disturbance and subsequent sunfish (Family: Centrarchidae) re-colonization revealed that crayfish populations are sensitive to sunfish, while dragonfly naiads seemed to be limited by other drying-related factors. A second manipulation revealed that small-bodied fishes and habitat structure (submerged vegetation) shaped dragonfly communities primarily through postcolonization processes. / by Natalie Knorp. / Thesis (M.S.)--Florida Atlantic University, 2013. / Includes bibliography. / Mode of access: World Wide Web. / System requirements: Adobe Reader.
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The effects of introduced fish on the long-toed salamander (Ambystoma Macrodactylum) in Southwestern Alberta, CanadaPearson, Kimberly J., University of Lethbridge. Faculty of Arts and Science January 2004 (has links)
Species that are introduced outside of their native ranges are an important threat to biodiversity. In southwestern Alberta, Canada, sport and bait fish have been introduced into most waterbodies. I examined the effects of introduced trout and minnows on the distribution, demography and behaviour of larval long-toed salamanders through a combination of field surveys, laboratory experiments and an outdoor mesocosm experiment. Results from field surveys at 30 high-elevation (>1500m) lakes confirmed previous studies showing an allopatic distribution of trout and long-toed salamanders. The same pattern was also documented at 27 low-elevation (<1500m) ponds. In a mesocosm experiment, salamander survival was significantly reduced in ponds containing trout or minnows. Surprisingly, larvae exposed to minnows were 28-65% smaller than larvae in control ponds, suggesting strong interspecific competition for zooplankton prey. In a series of laboratory studies, trout preyed directly on salamander hatchlings and larvae, whereas minnows injured hatchlings but did not consume them. In laboratory aquaria, salamander larvae spent significantly more time within a refuge when exposed to minnow cues, but showed no behavioural response to trout. This confirmed my expectation that long-toed salamanders lack specific behavioural responses to trout, but respond generally to disturbances within the water column. Thus, direct predation and a lack of specific antipredator behaviour are among the likely mechanisms responsible for the observed allopatic distribution of trout and long-toed salamanders. My data also show that gape-limited fish reduce growth and survival of salamanders, perhaps more so than trout, through mechanism such as competition and behavioural alteration. / ix, 76 leaves : ill., map ; 29 cm.
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An assessment of the effects of small-scale farming on macro-invertebrate and diatom community structure in the Vhembe District, Limpopo30 June 2015 (has links)
M.Sc. (Zoology) / The Limpopo Province covers an area of 12.46 million hectares and these accounts for 10.2 per cent of the total land area of the Republic of South Africa. The province is endowed with abundant agricultural resources and it is one of the country’s prime agricultural regions noted for the production of fruits and vegetables, cereals, tea, and sugar. A key feature of the agricultural industry of Limpopo Province is its dualism. There are two distinct types of agricultural production systems. The large scale commercial farming system occupies approximately 70% of the total land area. The smallholder farms are located mostly in the former homeland areas and they cover approximately 30% of the provincial land surface area. The town of Thohoyandou, with its surrounding villages, is the area of greatest human concentration in the Luvuvhu Catchment and subsistence farming is about a third of the total agricultural component. It is important to study the effects of agricultural inputs (e.g. fertilizers and sediment loads) on aquatic ecosystems in order to fully understand the processes involved of these stresses on aquatic ecosystems. Knowledge of these impacts toward the environment and human health is often limited due to lack of capacity building, especially among small scale farmers. Ten bio-monitoring sites were studied on five systems in the Vhembe district. The sites were sampled during the low flow period of November 2011 and the high flow period of April 2012. Sampling sites were selected to present conditions in the Mutale, Mutshindudi and Tshinane Rivers upstream and downstream of the potential influence of small scale agricultural activities...
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A spatial and temporal analysis of the changes in alien macrophyte communities and a baseline assessment of the macroinvertebrates associated with Eurasian watermilfoil, Myriophyllum spicatum L. (Haloragaceae) in the Vaal RiverFordham, Colin Justin January 2012 (has links)
The majority of South Africa’s fresh water (lotic and lentic), is eutrophic and this has resulted in water hyacinth, Eichhornia crassipes (C.Mart.) Solms. (Pontederiaceae) becoming South Africa’s most damaging aquatic macrophyte. Recently however, concerns have also been voiced over the presence of highly invasive submerged macrophyte species, such as Eurasian water-milfoil, Myriophyllum spicatum L. (Haloragaceae) in the Vaal River. Interaction studies between floating and submerged macrophytes have shown that floating macrophyte dominance restricts light penetration into the water column shading out submerged macrophytes while submerged macrophyte dominance reduces nutrient availability in the water column limiting floating macrophyte growth. This cycle ensures that these species cannot coexist in the same habitat for extended periods of time. The aims of this thesis were to: 1. Investigate changes in the historical and current macrophyte dominance in the Vaal River 2. Determine whether these changes could be attributed to stochastic events, such as floods and herbicide control measures. 3. The physio-chemical conditions of the water column, and whether pressure from herbivory by macroinvertebrates had possibly influenced Eurasian water-milfoil’s ability to dominate. Spatial and temporal analysis of satellite imagery revealed that water hyacinth and submerged macrophyte species dominated different regions of the study area over different periods of time from 2006 to 2010. This was significantly correlated with nitrate concentrations of the water column. One of the lower Vaal River Water Management Areas (WMA) had changed from a water hyacinth dominated state in 2006 to an alternative submerged macrophyte dominated stable state in 2008. It was concluded that this change could be attributed to: a stochastic flooding event in 2006; perturbation from integrated control measures implemented against water hyacinth; and low nitrate concentrations of the WMA. The lack of any substantial macroinvertebrate herbivory pressure or control measures implemented against Eurasian water-milfoil, compared to similar surveys conducted in the U.S.A. and its native range in Eurasia was shown to contribute to its dominance. Future successful integrated control programmes, including biological control against Eurasian water-milfoil, could provide the perturbation required to restore the ecosystem. However, without the reduction in nitrate concentration levels, water hyacinth will remain the dominant stable state of the rest of the Vaal River.
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