Global ETD Search

31	Impacts of Land-Use on Leaf Breakdown and Macroinvertebrate Assemblages in Southern Appalachian Streams Muller, Kristen Mary 19 January 2015 (has links) Land-use practices have long been associated with alterations in stream ecosystem structure and function, however, 'exurbanization' and its impact on streams is poorly understood. This study compares the ecosystem structure and function of 9 southern Appalachian streams of differing land-use (forested, exurban, agricultural). Impacts of land-use on leaf breakdown are examined in Chapter 1. Leaf breakdown rates were significantly related to land-use. Forested streams exhibited the slowest breakdown rates, followed by exurban streams, with agricultural streams having the fastest rates. Leaf breakdown was most strongly related to discharge (white oak) and some fine sediment metrics (red maple). Our results suggest that the altered hydrological regimes in agricultural streams, as well as the influx of fine sediments into streams from exurban development, can play a role in altering in-stream organic matter processing. The taxa and number of shredders present may play a role to a lesser extent. Impacts of land-use on macroinvertebrate assemblages are examined in Chapter 2. Shannon diversity, %EPT, and NCBI were significantly related to land-use regime. There were significant negative relationships between macroinvertebrate diversity and conductivity and temperature. In addition, biotic integrity had a significant negative relationship with conductivity. Canonical Correspondence Analysis (CCA) showed that agricultural streams were characterized by temperature and flow, forested streams by MPS and standing stock course particulate organic matter (SSCPOM), and two of three exurban streams by conductivity and temperature. Principal Coordinates Analysis (PCoA) revealed that while macroinvertebrate communities overlapped, some differences in community assemblage could be seen between land-use types. / Master of Science Stream Leaf breakdown Macroinvertebrate Land-use Agriculture Exurbanization
32	Effects of anthropogenic disturbances and biotic interactions on stream biota in gulf coastal plain streams Grubh, Archis R. 14 September 2006 (has links) No description available. Stream ecology timber harvesting activities macroinvertebrate assemblage road-crossings fish movement enclosure/exclosure experiments macroinvertebrate successional dynamics
33	Effects of leaf litter diversity on nutrients and mosquito communities in Neotropical artificial tree holes Komosinski, Rachel 31 July 2012 (has links) Inputs from terrestrial habitats to aquatic habitats are important for structuring aquatic communities. Terrestrial producer diversity in the tropics may decline due to anthropogenic causes. I investigated how tree diversity affects aquatic communities. We used leaves from three timber-producing species (Dalbergia retusa, Pachira quinata, and Tectona grandis) to test the effects of leaf litter species composition and richness on invertebrate aquatic communities in Gamboa, Panama. We quantified macroinvertbrate species richness and abundances, leaf litter mass loss, and dissolved carbon to nitrogen ratios (C:N) after 4 weeks. We found that litter types differed in breakdown and C:N. Tectona grandis had lower dissolved C:N than both native species and supported the fewest number of invertebrates. C:N ratios declined with increasing litter diversity; however breakdown was not affected by litter richness. Mosquito abundance increased with litter species richness. Results of this study highlight the importance of diverse detritus in structuring aquatic treehole communities. Dalbergia retusa Tectona grandis Culex Trichoprosopon digitatum Limatus Pachira quinata macroinvertebrate litter breakdown Biology Life Sciences
34	Dinâmica de macroinvertebrados em duas classes de àreas úmidas (formação palustre e meandro antigo de rio) de uma planície de inundação da bacia do Rio dos Sinos Teixeira, Raquel Reis 24 February 2005 (has links) Made available in DSpace on 2015-03-05T16:19:35Z (GMT). No. of bitstreams: 0 Previous issue date: 24 / Nenhuma / Este trabalho teve como objetivo avaliar os efeitos das perturbações hidrológicas (inundação e seca) na riqueza, densidade e composição da comunidade de macroinvertebrados em duas classes de áreas úmidas (formação palustre e meandro antigo de rio) de uma planície de inundação do Rio dos Sinos. A área de estudo localiza-se no município de Novo Hamburgo (Lomba Grande), no Estado do Rio Grande do Sul. Em cada classe de área úmida, um total de 12 coletas foi realizada ao longo de um ciclo anual (16/abril/2003 a 12/março/2004), onde 5 amostradas foram coletadas aleatoriamente utilizando um core (75 mm de diâmetro) inserido 5 cm no substrato. Um total de 1.229 espécimes de macroinvertebrados distribuídos em 50 taxa no meandro antigo de rio e 1.930 espécimes distribuídos em 48 taxa na formação palustre foram coletados. A maioria dos organismos observados eram insetos aquáticos (67,3% no meandro antigo de rio e 69,4% na formação palustre). A riqueza (F11,44 = 3,161; p < 0,05, meandro antigo de rio e F11,44 = 7,290; p / The objective of this study was to evaluate the effects of floods and drought on the macroinvertebrate richness, density and composition in two wetland classes (palustrine wetland and oxbow lake) associated to a floodplain system of the Sinos River basin over an annual cycle (2003-2004). The studied area was located in Novo Hamburgo city (Lomba Grande), in the South of the Brazil (Rio Grande do Sul). In each wetland class, twelve collections were carried out during an annual cycle (Apr 16/2003 to Mar 12/2004). In each collection, five samples were collected at random along an transect. The collections were developed using a corer (75 mm diameter) inserted 5 cm into the substratum. A total of 1,229 macroinvertebrates representing 50 taxa was observed in the oxbow lake and 1,930 macroinvertebrates distributed in 48 taxa were collected in the palustrine wetland. The majority of the taxa corresponded to aquatic insects (67.3% in the oxbow lake and 69.4% in the palustrine wetland). The macroinvertebrate richness ( Ciências Biológicas áreas úmidas macroinvertebrados perturbações hidrológicas planície de inundação disturbance floodplain macroinvertebrate wetlands
35	Efeito de um episódio de chuva atípica sobre a comunidade de macroinvertebrados bentônicos em um barramento hidrelétrico no cerrado Anacléto, Maria José Pinheiro 31 August 2015 (has links) Submitted by Jean Medeiros (jeanletras@uepb.edu.br) on 2016-02-29T13:12:51Z No. of bitstreams: 2 license_rdf: 23148 bytes, checksum: 9da0b6dfac957114c6a7714714b86306 (MD5) PDF - Maria José Pinheiro Anacléto.pdf: 6289419 bytes, checksum: a5bad1c5254340842bfb8f794c251188 (MD5) / Approved for entry into archive by Secta BC (secta.csu.bc@uepb.edu.br) on 2016-03-10T16:58:14Z (GMT) No. of bitstreams: 2 license_rdf: 23148 bytes, checksum: 9da0b6dfac957114c6a7714714b86306 (MD5) PDF - Maria José Pinheiro Anacléto.pdf: 6289419 bytes, checksum: a5bad1c5254340842bfb8f794c251188 (MD5) / Made available in DSpace on 2016-03-10T16:58:14Z (GMT). No. of bitstreams: 2 license_rdf: 23148 bytes, checksum: 9da0b6dfac957114c6a7714714b86306 (MD5) PDF - Maria José Pinheiro Anacléto.pdf: 6289419 bytes, checksum: a5bad1c5254340842bfb8f794c251188 (MD5) Previous issue date: 2015-08-31 / This study evaluated the temporal distribution of macroinvertebrate community relating one year of normal rainfall (2010) and one year of atypical rainfall (2014), in order to investigate the changes in the composition and structure of benthic macroinvertebrate communities in a hydropower project reservoir in a rain atypical scenario. The study was conducted in the same sampling area and sampling sites in the years 2010 and 2014, at the reservoir of Nova Ponte Hydroelectric Plant, located in the Triangulo Mineiro region, in Nova Ponte, River Basin Araguari, by using benthic macroinvertebrates as bioindicators in the environmental assessment. The results showed a low abundance and diversity of related organisms in 2014 year of atypical rain. The areas around the reservoir showed changes according to the use and occupation of land. However, human activities have tightly changing the water resources, interfering with the communities that live there. / O presente trabalho avaliou a distribuição temporal da comunidade de macroinvertebrados relacionando um ano de pluviosidade normal (2010) e um ano de pluviosidade atípica (2014), com o intuito de investigar as alterações na composição e estrutura de comunidades de macroinvertebrados bentônicos em um reservatório de empreendimento hidrelétrico em um cenário de chuva atípica. O estudo foi realizado na mesma área amostral e nos mesmos sítios amostrais nos anos 2010 e 2014, do reservatório da Usina Hidrelétrica de Nova Ponte, localizada na região do Triângulo Mineiro, no município de Nova Ponte, Bacia do Rio Araguari. Usando os macroinvertebrados bentônicos como bioindicadores na avaliação ambiental. Os resultados apresentaram uma baixa abundância e diversidade de organismos relacionado em um ano de chuva atípica. As áreas do entorno do reservatório apresentaram alterações de acordo com o uso e ocupação do solo. No entanto, as atividades humanas vem alterando fortemente os recursos hídricos, interferindo as comunidades que lá habitam. Macroinvertebrados aquático Chuva atípica Qualidade ambiental Bioindicadores Benthic macroinvertebrate ECOLOGIA::ECOLOGIA DE ECOSSISTEMAS
36	The Diversity of Macroinvertebrate Grazers in Streams: Relationships With the Productivity and Composition of Benthic Algae McKenny, Claire, n/a January 2005 (has links) There has been much interest in the last decade concerning the factors that influence diversity, especially how diversity and ecosystem processes may be linked. This study was based in small, cobble streams in South East Queensland. Its aim was to determine how the diversity and composition of consumers (the grazer guild) is influenced by both the production and composition of benthic algae, at different spatial scales. It also aimed to ascertain whether this response differs among grazer sub guilds with different dispersal capabilities. Ten sites in the Upper Brisbane and Mary catchments were sampled. The sites were selected to provide a range of productivity and composition. Grazers from these sites included snails and elmids, and larval mayflies, moths, and caddisflies. Grazer diversity and composition appeared to be structured by catchment scale influences, but environmental variables also affected which animals colonised patches and microhabitats (cobbles) within catchments. Primary productivity and algal composition could not be separated, with highly productive reaches also having a high cover of filamentous algal taxa. Grazer diversity displayed strongly positive, linear relationships with algal variables at the reach scale. It had a negative relationship with filamentous algae at the cobble scale, and a non-significant hump-shaped relationship with primary productivity. Survey data alone could not separate whether grazers were responding to habitat or food-related drivers, or to variations in productivity. Experimental manipulation of algal variables at the patch scale, using light and nutrients, also could not clearly uncouple the relationship between primary productivity and filamentous algal cover. Once reach scale variation was removed, grazer diversity displayed hump-shaped relationships with algal variables, including algal diversity. Much of this variation was due to patterns in mobile grazers, as sedentary grazers did not respond to algal variation at this scale. The density of the more mobile taxa showed similar patterns to those at the cobble scale (hump-shaped). A second field experiment was carried out in order to further investigate the responses of invertebrates to algal community composition at the cobble scale. Data from all three chapters suggested that as sites shifted to a dominance of filamentous algae, often with an associated increase in GPP, there was also a shift in the grazer community towards more sedentary grazers and away from the more mobile taxa. This also occurred at the cobble scale in the second experiment. The gut analysis and diet studies in the third chapter indicated that while many grazers consumed filamentous algae, it was not assimilated. This suggests that the preferences for sedentary taxa for cobbles and reaches dominated by filamentous algae are likely to be due to some other, possibly habitat-related, factor such as flow or predation refuge. The study provides a rare examination of relationships between primary productivity and consumer diversity in freshwater streams, and finds support for the pattern found in other systems of monotonic relationships of these two variables at large scales and hump-shaped relationships at smaller scales. It emphasises the importance of understanding other, potentially confounding, aspects of communities of producers, and investigates the possible roles of the most important of these (community composition) in structuring consumer communities in the small cobble streams of South-East Queensland. Macroinvertebrate grazers benthic algae cobble streams (Queensland) stream ecology Upper Brisbane River Mary River
37	Assessing Organic Matter Breakdown and Associated Macroinvertebrate Community Structure in Headwater Streams: Effects of Hydrologic Gradients and Upland Timber Harvesting Jarrell, Miller Scott 01 July 2009 (has links) I examined the effects of hydrologic gradients and upland timber harvesting with different streamside management zone widths on yellow-poplar (Liriodendron tulipifera) processing and the associated macroinvertebrate community structure in the Cumberland Plateau ecophysic region, U.S.A. Prior to upland timber harvesting, 5.0 ± 0.1 g yellow-poplar leaf packs were constructed, zip-tied to gutter nails, and placed into 7 perennial and 6 temporary stream reaches with similar physiochemical and geomorphic characteristics. From December 2007 to May 2008, 3–5 leaf packs were collected per reach monthly. I found significant differences in the functional feeding group composition. Temporary reaches contained higher shredder, gathering-collector, predator, and total macroinvertebrate abundances. Shredder and total macroinvertebrate biomass was also higher in the temporary stream reaches. Gathering-collector biomass along one measurement was higher in the temporary streams. Perennial and temporary stream reaches contained similar macroinvertebrate diversity. Logging operations occurred from May 2008–December 2008. After logging operations ended, yellow-poplar leaf packs were placed into the perennial and temporary reaches of 3 control and 3 treatment streams (2 with same SMZ width, 1 different). From December 2008–May 2009. Leaf packs were collected monthly. Within the temporary and perennial stream reaches, no significant differences were detected between control and treatment yellow-poplar processing rates. No significant differences were detected between the control and treatment functional feeding group composition in abundance and biomass. Post-harvest, taxon richness increased in both the perennial control and treatment streams, while richness declined in the temporary control and increased in the temporary treatment. My findings indicate that when water is present, organic matter processing will function similarly to downstream reaches that have continual water flow. During seasonal flow patterns, macroinvertebrate communities associated with organic matter are present in temporary streams and may exceed perennial stream reaches in their density and biomass. This indicates that temporary streams are physically suitable habitats for macroinvertebrate fauna and contribute to a stream’s form and function. Overall, no observed distinct response in yellow-poplar processing rates or the associated macroinvertebrate community structure was detected within the perennial or temporary streams. Macroinvertebrate community structure varied spatially and temporally. On the taxonomic level, increases in taxa-specific abundance and biomass remain to be explained. Future research assessing interactions on the taxonomic level might help explain increases or decreases in abundance and biomass in relation to treatment effects. This study documented the response of organic matter breakdown and associated macroinvertebrate community structure during the 1st 5 months after logging. Thus, it is only a snapshot of stream ecosystem response to disturbance. Long-term studies are needed to evaluate full ecosystem response and recovery. Due to uncontrollable factors, I was not able to evaluate the success of different SMZ widths. Results documented should be treated with hesitancy, until full ecosystem response has been documented. Cumberland Plateau ecophysic region yellow poplar leaf macroinvertebrate community structure Biology, general Environmental Sciences Forest Biology
38	Impact Of Water Level Fluctuations And Fish On Macroinvertebrate Community And Periphyton Growth In Shallow Lakes - A Mesocosm Approach Saraoglu, Ece 01 February 2012 (has links) (PDF) A mesocosm experiment was conducted in Lake Eymir between June &ndash / September 2009 in order to elucidate the effects of water level changes and fish predation on periphyton growth and macroinvertebrates in semi-arid shallow lakes. Twenty four cylindrical enclosures, each with 1.2 m diameter, open to lake bottom and atmosphere, were placed at three different depths, i.e. 0.8 m (low water level, LW), 1.6 m (high water level, HW) and 2.3 m (however, data regarding the enclosures at 2.3 m were excluded in this study due to complications after fifth sampling) to simulate water level fluctuations. At each water level, four replicates were stocked with omnivorous&ndash / planktivorous fish (Tinca tinca and Alburnus escherichii) and the other four replicates were left fishless to observe the effect of fish predation. Ten shoots of submerged macrophytes (Potamogeton pectinatus) were planted and six polyethylene strips were hung in the water column in each enclosure to monitor macrophyte and periphyton growth. The mesocosms were sampled for physical, chemical and biological parameters weekly in the first month and fortnightly thereafter. Benthic macroinvertebrate samples were taken before the start, in the middle and at the end of the experiment with Kajak corer. Macrophytes were harvested after the last sampling for determination of dry weight, epiphyton, and the associated macroinvertebrates. All macroinvertebrate samples were sieved through 212 &mu / m mesh size before identification and counting. Over the course of the experiment, an average of 0.46 &plusmn / 0.03 m water level decrease in the mesocosms triggered submerged macrophyte growth in all LW enclosures, overriding the negative effects of fish predation. The results indicate that while fish predation pressure had negative influences on macroinvertebrate communities in terms of both abundance and richness, structural complexity created by dense vegetation in the LW mesocosms weakened the top-down effect of fish on macroinvertebrates by acting as a refuge in this semi-arid shallow lake. QH General and Animal Ecology 540-549.5
39	Linking Structural and Functional Responses to Land Cover Change in a River Network Context Voss, Kristofor Anson January 2015 (has links) <p>By concentrating materials and increasing the speed with which rainfall is conveyed off of the landscape, nearly all forms of land use change lead to predictable shifts in the hydrologic, thermal, and chemical regimes of receiving waters that can lead to the local extirpation of sensitive aquatic biota. In Central Appalachian river networks, alkaline mine drainage (AlkMD) derived from mountaintop removal mining for coal (MTM) noticeably simplifies macroinvertebrate communities. In this dissertation, I have used this distinct chemical regime shift as a platform to move beyond current understanding of chemical pollution in river networks. In Chapter Two, I applied a new model, the Hierarchical Diversity Decision Framework (HiDDeF) to a macroinvertebrate dataset along a gradient of AlkMD. By using this new modeling tool, I showed that current AlkMD water quality standards allow one-quarter of regional macroinvertebrates to decline to half of their maximum abundances. In Chapter Three, I conducted a field study in the Mud River, WV to understand how AlkMD influences patterns in aquatic insect production. This work revealed roughly 3-fold declines in annual production of sensitive taxa throughout the year in reaches affected by AlkMD. These declines were more severe during summer base flow when pollutant concentrations were higher, thereby preventing sensitive organisms from completing their life cycles. Finally, in Chapter Four I described the idea of chemical fragmentation in river networks by performing a geospatial analysis of chemical pollution in Central Appalachia. In this work I showed that the ~30% of headwaters that remain after MTM intensification over the last four decades support ~10% of macroinvertebrates not found in mined reaches. Collectively my work moves beyond the simple tools used to understand the static, local consequences of chemical pollution in freshwater ecosystems.</p> / Dissertation Ecology Environmental science Biology bioassessment hierarchical model macroinvertebrate mountaintop removal mining river network secondary production
40	Riparian Ecosystem Response to Hemlock Woolly Adelgid (<i>Adelges tsugae</i>) Induced Eastern Hemlock (<i>Tsuga canadensis</i>) Mortality in the Great Smoky Mountains National Park, USA Huddleston, Misty Dawn 01 December 2011 (has links) An invasive insect, hemlock woolly adelgid (HWA), has initiated widespread hemlock decline and mortality in the Great Smoky Mountains National Park (GSMNP). Riparian hemlock mortality impacts on vegetative and aquatic systems of first-order, headwater streams were evaluated. Reference sites for this study were representative of the best available conditions within the GSMNP, with initial stages of HWA presence. Impacted sites were defined as areas with over 90 percent hemlock mortality. Impacted streams had decreased canopy coverage and increased light availability. Residual red maple, yellow birch, and sweet birch capitalized on the loss of hemlock, with increases in relative basal area and species importance values. Rosebay rhododendron responded with increased density and height at impacted sites, thereby preventing woody regeneration. Since long-term regeneration and post-mortality canopy recruitment are limited, alterations of vegetative composition and structure in the stream riparian zone are expected. A seasonal assessment (Sept. 2009 – March 2010) of aquatic impacts revealed increased diurnal variation in stream temperature and exhibited cooler temperatures during the colder months than reference streams. Impacted streams exhibited greater amounts and larger size classes of large woody debris (LWD). Higher concentrations for several nutrients, including silicon, sodium, potassium, magnesium, chlorine, and copper were detected in impacted streams than detected in reference streams. Impacted streams were characterized by higher pH and increased acid neutralization capacity, while reference streams exhibited nitrate concentrations three times higher than impacted stream concentrations. Reference streams were experiencing the initial stage of HWA-induced defoliations, increasing stream nitrate concentrations, while impacted sites had levels suggesting nitrate concentrations have returned to pre-infestation levels. A seasonal assessment of macroinvertebrates found species diversity, abundance, and taxa richness were not affected by hemlock mortality. Impacted streams had a lower density of Chironomidae and Ephemeroptera when compared to reference streams, while Pleuroceridae snails were virtually eliminated at impacted stream sites. Reference streams were dominated by the collector/filter functional feeding group (FFG), while impacted streams were dominated by the scraper FFG. Hemlock mortality induced by the presence of HWA has resulted in short-term impacts to vegetative and aquatic dynamics in stream riparian areas of the Great Smoky Mountain National Park. hemlock woolly adelgid eastern hemlock ecosystem macroinvertebrate aquatic Biology, general Entomology Terrestrial and Aquatic Ecology

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