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Effects of Biogenic and Simulated Nutrient Enrichment on Fish and Other Components of Okefenokee Swamp Marshes [microform]

1987 Marsh animals
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Release : 1987
Genre : Marsh animals
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Book Synopsis Effects of Biogenic and Simulated Nutrient Enrichment on Fish and Other Components of Okefenokee Swamp Marshes [microform] by : Oliver, J. Douglas

Download or read book Effects of Biogenic and Simulated Nutrient Enrichment on Fish and Other Components of Okefenokee Swamp Marshes [microform] written by Oliver, J. Douglas. This book was released on 1987. Available in PDF, EPUB and Kindle. Book excerpt: Biogenic and simulated nutrient enrichment increased levels of various ecological components of Okefenokee Swamp marshes. Fertilization by wading birds and an artificial experimental source increased stores of phosphorus in diverse links of the food web. Simulation modeling lent support to the hypothesis that birds mediated such changes that persisted after they abandoned this ecosystem. To simulate nutrient enrichment from birds, I placed pots of enriched agar inside clear enclosures. In the laboratory, pots released a mean of 45 mg NH$\sb4$-N d$\sp{-1}$ and 11 mg PO$\sb4$-P d$\sp{-1}$ into water. In the marsh, mesocosms containing pots had higher stocks of zooplankton (primarily Diaphanosoma brachyurum) than controls. These results demonstrate that simulation of enrichment remaining after birds left can cause significant effects on zooplankton primary consumers in the marshes. Evidence was presented for residual enrichment by a biotic component of the ecosystem itself, the birds. One to two years after they abandoned the marsh, it showed continued nutrient effects. Elevated available phosphorus in sediments contributed to enhanced levels of phytoplankton. Planktivorous fish were greater in biomass than at reference sites. These results and the zooplankton data suggest residual enrichment effects of birds on sediments, and indirectly on plankton and fish. I measured the trophic transfer to Leptolucania ommata and Gambusia affinis, in situ. Both fishes ate mainly insect larvae (such as Chironomidae) and Cladocera. Consumption by both species in summer (26.31 mg m$\sp{-2}$ d$\sp{-1}$) supports a hypothesis that invertebrate prey production must be substantial in such blackwater marshes. Trophic model dynamics were checked by seasonal data before, during and after simulated nutrient input from birds. The model reasonably estimates effects of enrichment on benthic detritus, aquatic macrophytes and phytoplankton, and conservatively estimates the increase of zooplankton

Canadiana

1989-05 Canada
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Release : 1989-05
Genre : Canada
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Book Synopsis Canadiana by :

Download or read book Canadiana written by . This book was released on 1989-05. Available in PDF, EPUB and Kindle. Book excerpt:

Toward simulation and systems analysis of nutrient cycling in the Okefenokee Swamp, Georgia

1977 Mineral cycle (Biogeochemistry)
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Release : 1977
Genre : Mineral cycle (Biogeochemistry)
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Book Synopsis Toward simulation and systems analysis of nutrient cycling in the Okefenokee Swamp, Georgia by : Edward Joseph Rykiel

Download or read book Toward simulation and systems analysis of nutrient cycling in the Okefenokee Swamp, Georgia written by Edward Joseph Rykiel. This book was released on 1977. Available in PDF, EPUB and Kindle. Book excerpt:

Nutrient Enrichment Promotes Eutrophication in the Form of Macroalgal Blooms Causing Cascading Effects in Two Anthropogenically Disturbed Coastal Ecosystems

2019
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Release : 2019
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Book Synopsis Nutrient Enrichment Promotes Eutrophication in the Form of Macroalgal Blooms Causing Cascading Effects in Two Anthropogenically Disturbed Coastal Ecosystems by : Tiara N Moore

Download or read book Nutrient Enrichment Promotes Eutrophication in the Form of Macroalgal Blooms Causing Cascading Effects in Two Anthropogenically Disturbed Coastal Ecosystems written by Tiara N Moore. This book was released on 2019. Available in PDF, EPUB and Kindle. Book excerpt: Humans are impacting almost every major ecological process that structures communities and ecosystems. Examples of how human activity can directly control key processes in ecosystems include destruction of habitat changing trophic structure, nutrient pollution altering competitive outcomes, overharvesting of consumers reducing top down control, and now climate change impacting virtually every global biogeochemical cycle. These human impacts may have an independent effect on the ecosystem, but they also have the potential to cause cascading effects and promote subsequent stressors. Also, these impacts are not limited to a particular system or geographic location making research on their overall effects vital for management practices. For example, tropical reefs have been transitioning from coral to mixed communities dominated by macroalgae, motivating research on how macroalgae respond to anthropogenic stressors and interact with each other during these stressful events. Further, while eutrophication of coastal estuaries due to increased anthropogenic supplies of nutrients has been of critical global concern for decades, the potential for eutrophication to drive new stressors is a growing concern. To address these knowledge gaps, I investigated how human stressors impact two different and major coastal ecosystems known to be vulnerable to anthropogenic disturbances. In chapter 1, I demonstrate that anthropogenic stressors in the form of increased nutrients in the water and sediments have strong impacts on interspecific interactions of coral reef macroalgae. Abiotic stressors such as nutrients have been linked to phase-shifts from coral to algal domination on tropical reefs. However, few studies have considered how these stressors impact changes in the biotic and abiotic constituents of dominant species of calcifying macroalgae, and how this may be mediated by species-species interactions. I conducted 4 mesocosm experiments to examine whether different nutrient sources (water column vs. terrestrial sediment) as well as species interactions (alone vs. mixed species) affected total mass (biomass + calcium carbonate (CaCO3)) of two common calcifying macroalgae (Padina boryana and Galaxaura fasciculata). P. boryana gained total mass with increased water column nutrients but declined with increased nutrients supplied by the sediment. Conversely, G. fasciculata gained total mass with increased nutrients in the sediment but declined with increased water column nutrients. In both interactions, the "winner" (i.e., G. fasciculata in the sediment experiment) also had a greater % of thallus mass comprised of CaCO3, potentially due to the subsequent decomposition of the "loser" as this result was not found in the alone treatments. These findings ultimately suggest that nutrient stressors can cause cascading effects, such as promoting calcification and biomass growth or loss in these macroalgal communities, and the potential for domination or decline is based on the nutrient source and community composition. In chapter 2, I demonstrate that decomposition of macroalgal blooms cause a sequence of biogeochemical processes that can drive acidification in shallow coastal estuaries, and that these processes are mediated by a dynamic microbial community. Eutrophication and ocean acidification are both widely acknowledged as major human-induced stressors in marine environments. While the link between eutrophication and acidification has been established for phytoplankton, it is unclear whether eutrophication in the form of macroalgal blooms can cause cascading effects like acidification in shallow eutrophic estuaries. I conducted seasonal field surveys and assessed microbial communities and functional genes to evaluate changes in biotic and abiotic characteristics between seasons that may be associated with acidification in Upper Newport Bay, CA, USA. Acidification, measured as a drop in pH of 0.7, occurred in summer at the site with the most macroalgal cover. Microbial community composition and functional gene expression provide evidence that decomposition processes contributed to acidification, and also suggest that other biogeochemical processes like nitrification and degradation of polyphosphate also contributed to acidification. To my knowledge, my findings represent the first field evidence that eutrophication of shallow coastal estuaries dominated by green macroalgal blooms can cascade to acidification. In chapter 3, I demonstrate that macroalgal blooms in shallow estuaries are strong drivers of key microbially-mediated biogeochemical processes that can cause cascading effects, such as acidification and nutrient fluxing, regardless of simulated tidal flushing. Estuaries are productive and diverse ecosystems and are vulnerable to eutrophication from increased anthropogenic nutrients. While it is known that enhanced tidal flushing can reduce adverse effects of anthropogenic disturbances in larger, deeper estuarine ecosystems, this is unexplored for eutrophication in shallow coastal estuaries where macroalgae usually dominate. I simulated eutrophication as a macroalgal bloom in a mesocosm experiment, varied tidal flushing (flushed daily vs unflushed), and assessed the effects on water column and sediment biogeochemical processes and the sediment microbial community. While flushing did not ameliorate the negative effects of the macroalgal bloom, it caused transient differences in the rate of change in biogeochemical processes and promoted increased fluxes of nutrients from the sediment. In the beginning, the macroalgal bloom induced basification and increased total alkalinity, but during decomposition, acidification and the accumulation of nutrients in the sediment and water column occurred. The findings from this chapter ultimately suggest that macroalgal blooms have the potential to be the cause of, yet may also offer a partial solution to, global ecological changes to biogeochemical processes. Overall, my results indicate that anthropogenic disturbances, particularly in the form of increased nutrients, can cause cascading effects like macroalgal blooms that in turn cause acidification, basification, increased interspecific interactions, nutrient depletion, and nutrient fluxing in multiple ecosystems. These data advance our current understanding of the ecological consequences of eutrophication in the form of macroalgal blooms in different ecosystems. It also provides mechanistic links to microbial communities and biogeochemical processes not previously identified for shallow coastal estuaries. As human population and subsequent nutrient pollution increases in watersheds globally, ecological phenomenon such as eutrophication will only be intensified, and macroalgal communities will continue to dominate. Consequently, this dominance, especially during decomposition as shown here, can drive a multitude of subsequent stressors that can impact the entire ecosystem.

Biological Contributions to Elevation Differ Within Natural and Constructed Tidal Marshes Exposed to Nutrient Enrichment

2020 Electronic dissertations
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Release : 2020
Genre : Electronic dissertations
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Book Synopsis Biological Contributions to Elevation Differ Within Natural and Constructed Tidal Marshes Exposed to Nutrient Enrichment by : Abigail Griffin Wood

Download or read book Biological Contributions to Elevation Differ Within Natural and Constructed Tidal Marshes Exposed to Nutrient Enrichment written by Abigail Griffin Wood. This book was released on 2020. Available in PDF, EPUB and Kindle. Book excerpt: Restoration and construction of tidal marshes has been encouraged to recover ecosystem structure and function in response to wetland loss. While natural and restored marshes often achieve similar structure, they may not function similarly. Further, the effects of nutrient loading on ecological functions may vary between natural and restored or constructed marshes, with consequences for marsh resilience to sea-level rise. As coastal restoration and creation projects become more common, it is important to understand the similarities and differences in tidal marsh responses to environmental changes, including nutrient enrichment, and their impacts on ecosystem functions and resilience. To test the effects of nutrients on marsh responses, I conducted a controlled, nutrient-enrichment mesocosm experiment (none: no nutrients added; low: 20 g N m-2 yr-1 and 1.25 g P m-2 yr-1 added; high: 40 g N m-2 yr-1 /2.5 g P m-2 yr-1 added) utilizing intact, vegetated sods of Juncus roemerianus collected from natural and constructed tidal marshes along the Fowl River in Alabama. During the 8-month experiment, I measured hydro-edaphic conditions, above- and belowground biomass, primary production, organic matter decomposition, nitrate reduction potentials, and surface elevation change. Above- and belowground biomass was significantly higher in the natural than the constructed marsh, and belowground biomass responded positively to high nutrient additions. As a result, biomass allocation tended to shift belowground with increasing nutrients. Both marsh type and nutrient treatment significantly affected decomposition of J. roemerianus shoot litter, but not of belowground litter. However, given the lower belowground biomass in the constructed marsh, decomposition could have a greater overall impact on elevation in the constructed marsh compared to the natural marsh. Nitrate reduction potentials also differed between marshes and in response to nutrient enrichment. Denitrification (DN) was greater in the natural marsh and increased in response to nutrient additions in both marshes, representing nitrogen removal from the system. Dissimilatory nitrate reduction to ammonium (DNRA) did not differ between marshes or among nutrient treatments in the absence of carbon amendments, but it increased significantly in the natural marsh with carbon amendments, representing nitrogen retention in the system. These biological responses were insufficient to stimulate elevation gains, however, as all mesocosms lost elevation over time. While there were no significant differences in elevation change between marshes or among nutrient treatments, the none treatment retained the most elevation in the natural marsh while the high nutrient treatment retained the most elevation in the constructed marsh. Such differences between marsh types have important implications for coastal restoration success under increasingly eutrophic conditions, and collectively, indicate that nutrient additions may contribute differently to resilience to sea-level rise in natural and constructed tidal marshes.

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