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Kinetics of microbially mediated reactions: dissimilatory sulfate reduction in saltmarsh sediments (Sapelo Island, Georgia, USA) 总被引:1,自引:0,他引:1
Alakendra N. Roychoudhury Philippe Van Cappellen Joel E. Kostka Eric Viollier 《Estuarine, Coastal and Shelf Science》2003,56(5-6):1001-1010
A sediment disk reactor was tested in once flow-through mode to retrieve kinetic parameters for the Monod rate law that describes sulfate reduction. The experimental method was compared with a previously described procedure by the authors where a sediment plug-flow reactor was operated in a recirculation mode. In recirculation mode, accumulation of metabolic byproducts in certain cases may result in negative feedback, thus preventing accurate determination of kinetic information. The method described in this article provides an alternative to the recirculation sediment plug-flow-through reactor technique for retrieving kinetic parameters of microbially mediated reactions in aquatic sediments.For sulfate reduction in a saltmarsh site, a maximum estimate of the half-saturation concentration, Ks, of 204±26 μM and a maximum reaction rate, Rm, of 2846±129 nmol cm(wetsediment)3 d−1 was determined. The Ks value obtained was consistent with the one estimated previously (Ks=240±20 μM) from a different site within the same saltmarsh mud flat using a recirculating reactor. From the Rm value and reduction rates determined using 35SO42− incubation experiments, we infer that sulfate reduction is limited in the field. Substrate availability is not the main contributor for the limitation, however. Competition from other microbes, such as iron reducers affects the activity of sulfate reducers in the suboxic to anoxic zones, whereas aerobes compete in the oxic zone. High sulfide concentration in the pore water may also have acted as a toxin to the sulfate reducers in the field. 相似文献
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生物地貌学研究生物过程和地貌过程之间的双向交互作用,是一门新兴的交叉学科。早期的生物地貌学关注陆地生态系统,近期海岸带成为生物地貌学研究的热点地区,尤其是滨海湿地(如盐沼、红树林)成为研究生物地貌学过程和机理的重要区域。本文回顾了生物地貌学研究的概念、历史发展和方法,选取滨海湿地作为生物地貌学的主要研究对象,并就其研究方向、重要因素以及核心机制展开综述。最后对生物地貌学在海岸带生态系统修复工作中的应用进行梳理,分析了生物地貌学在红树林修复、滨海盐沼湿地修复和互花米草入侵防控上的应用展望。 相似文献
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近二十多年,盐沼水-沉积物-植物界面流速的研究取得了很大的进展。本文拟对盐沼水-沉积物-植物界面的流速分布、变化和研究状况进行一定的归纳,并提出可能的研究方向和途径。本文内容包括通过野外观测和室内模拟定量分析研究盐沼和不同植被状况下(不同植株高度、密度、不同种类植株等)流速变化规律,及其流速变化原因。 相似文献
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In July 2000 a flood defence embankment protecting abandoned agricultural land in the estuary of the River Torridge, Devon, UK, was breached as part of a managed realignment (MR) project. The objective was to restore the agricultural land, reclaimed from saltmarsh some 200 years previously, to its former habitat. Changes to the soil hydrological regime and alteration of the soil environment at the site were studied. The most significant observed impact at the MR site was the change in flooding regime, with regular tidal inundation occurring to a maximum depth of 52 cm during spring tides. Prior to the realignment, soil water table fluctuations were linked to patterns of spring and neap tides. Post-realignment, a change in mean water table height of more than 50 cm was observed at the MR site, and soil redox potential at 5 cm depth was reduced by over 700 mV immediately following reflooding, changing the soil environment from an oxidised to a reduced environment. Topsoil water (collected from 10 cm depth) demonstrated large, short-term reductions in pH. Prior to realignment topsoil water pH ranged from 6.6 to 8.7, but following realignment remained below 5 for approximately nine weeks, reaching a minimum of 3.3. Short-term changes in conductivity and NH4+ concentrations in topsoil water also occurred, conductivity rising from <2000 μS to >40,000 μS following realignment, while NH4-N concentrations rose from 0.10 mg l−1 to 10.05 mg l−1. Cotton tensile strength loss (CTSL) reflected these changes, exhibiting large decreases in decomposition rates at 5–10 cm depth immediately following the realignment. These results have implications for the management of MR projects, and for the health and quality of the estuary in general. 相似文献
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John D. Booth 《新西兰海洋与淡水研究杂志》2020,54(4):593-613
ABSTRACT Human settlement in Bay of Islands, New Zealand, beginning ~1300 AD, wrought immense, conspicuous and enduring change to local shallow-water marine ecologies, this review addressing those transformations attributable to increased rates of anthropogenically induced, land-derived sedimentation. Elevated silt inflow, particularly after the late-1800s, in course led to ~130% expansion in mangrove (Avicennia marina) cover, with concomitant loss of saltmarsh, uppershore coarse-shell beaches/cheniers, and (probably) intertidal seagrass (Zostera muelleri). Sedimentation also led to widespread loss of estuarine shellfish habitat, and, although not necessarily categorically causal, seems, at the same time to have contributed to such degradation among cockle (Austrovenus stutchburyi) populations that few individuals attain their potential size. Most changes, many seemingly irreversible, can be described as ecologically catastrophic, with ecosystems altered and destroyed, and uncommon habitats threatened. Sedimentation appears the single-most important and enduring contributor to ecological degradation in shallow waters of this northern harbour, with time lags between stressor-onset and realisation of impact (decades to centuries) that only now are becoming clear. Outstanding issues concern establishing the extent of relationship between levels of terrigenous sedimentation and cockles seldom attaining their previous maximum sizes, and origins of the possibly new, widespread phenomenon of living cockles accumulating and dying atop beach surfaces. 相似文献
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盐沼水-沉积物-植物界面流速研究进展 总被引:2,自引:0,他引:2
综述了近20多年来盐沼水-沉积物-植物界面流速的研究进展。在此基础上,拟对盐沼水-沉积物-植物界面的流速分布、变化和研究状况进行一定的归纳,并提出可能的研究方向和途径。内容包括通过野外观测和室内模拟定量分析研究盐沼和不同植被状况下(不同植株高度、密度、不同种类植株等)流速变化规律及其流速变化原因。本领域研究有待收集大量数据后进一步深入和系统地探讨。 相似文献
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The vertical distribution of foraminifera, testate amoebae and diatoms was investigated in saltmarshes in the Taf estuary (south Wales), the Erme estuary (south Devon) and the Brancaster marshes (north Norfolk), to assess the use of multiproxy indicators in sea‐level reconstructions. A total of 116 samples were subjected to regression analyses, using the program calibrate, with duration of tidal flooding as the dependent variable. We found that the relationship between flooding duration and taxa was strongest for diatoms and testate amoebae and weakest for foraminifera. The vertical range of testate amoebae in saltmarshes is small. Their lower tolerance limit in present‐day saltmarshes occurs where tides cover the marsh less than a combined total of 7 days (1.9%) in a year. However, they are important sea‐level indicators because information for sea‐level reconstruction is best derived from sediments that originate in the highest part of the intertidal zone. Diatoms span the entire sampled range in intertidal and supratidal areas, whereas the upper limit of foraminifera is found very close to the highest astronomical tide level. Local training sets provide reconstructions with higher accuracy and precision than combined training sets, but their use is limited if they do not represent adequate modern analogues for fossil assemblages. Although analyses are time consuming, a regional training set of all three groups of micro‐organisms yields highly accurate (r2 = 0.80) and precise (low value of root mean square error) predictions of tidal level. This approach therefore could improve the accuracy and precision of Holocene sea‐level reconstructions. Copyright © 2001 John Wiley & Sons, Ltd. 相似文献
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Mangrove forests and saltmarshes are recognized for their roles in wave and current attenuation, although a comparison of in situ observations between woody and herbaceous plants is needed in order to understand the different mechanisms of bio‐physical interaction within coastal wetlands. The aim of our study was to compare the mechanisms of flow reduction and energy dissipation by mangrove trees and saltmarsh grass in a subtropical area where tidal currents dominate. Fieldwork was conducted to measure the hydrodynamic processes occurring at the boundaries between a bare mudflat and vegetated tidal flat, as the flow transitions from a bare mudflat to either mangrove or saltmarsh. Synchronous acoustic Doppler velocimetry (ADV) measurements at three sites revealed that the mangrove was more effective than the saltmarsh grass at flow reduction. In addition, a considerable rotation in flow direction was observed as the flow entered the mangrove trees, while rotation was considerably less pronounced within the saltmarsh edge. The mechanism for this difference was explained through a combination of changes in drag force and eddy viscosity over the two vegetation types. Although overall the mangrove was observed to dissipate energy more effectively than the saltmarsh, the relative efficiency of the vegetation at dissipating turbulent energy was found to vary with the maximum water level of tidal cycle. When the maximum water level remained below the mangrove canopy bottom (‘bio‐line’), the energy dissipation ability of the mangrove was relatively low, as a result of the presence of rigid, sparse trunks rather than denser saltmarsh grass found near the bed; when the maximum water level was sufficiently high to reach the mangrove canopy, the ability of the mangrove to dissipate energy was significantly increased, becoming more effective than the saltmarsh grass. Copyright © 2016 John Wiley & Sons, Ltd. 相似文献