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1.
This study examined the effects of watershed development on macrobenthic communities in tidal creeks of Charleston Harbor, South Carolina, U.S. Two types of creeks were evaluated: upland creeks which drained watersheds consisting of at least 15% terrestrial land cover, and salt marsh creeks which drained no upland habitat (i.e., only intertidal habitat). Samples of macrobenthic organisms were taken along the longitudinal axis of twenty-three primary (first order) tidal creeks. Water and sediment quality data were also collected including measurements of dissolved oxygen, salinity, temperature, sediment characteristics, and toxic chemicals in the creek sediments. Hypoxic conditions occurred more than 15% of the time in both reference and developed creeks and were a natural attribute of these systems. The most severe and frequent hypoxia occurred in impacted salt marsh creeks. Salinity fluctuations were the greatest in developed upland creeks and salinity range was identified as a potentially reliable indicator of the degree to which watershed development has altered hydrodynamic processes. The creeks draining urban and industrial watersheds were degraded environments characterized by watersheds with high (>50%) levels of impervious surface, broad fluctuations in salinity, severe hypoxia, and potentially toxic levels of chemicals in the sediment. These creeks had low macrobenthic diversity and abundance and were numerically dominated by the oligochaeteMonopylephorus rubroniveus in mud sediments, and the polychaeteLaeoreis culveri in sand sediments. Suburban watersheds had 15–35% impervious surface and creeks draining them were exposed to frequent hypoxia and broad salinity fluctuations. The levels of chemical contaminants in sediments of suburban and impacted salt marsh creeks were generally not different from the levels in reference creeks. Macrobenthic diversity and abundance were higher for suburban and impacted salt marsh creeks than for urban and industrial creeks. However, suburban and salt marsh impacted creeks were numerically dominated by a few pollution indicative species including the oligochaetesM. rubroniveus andTubificoides brownae and the polychaeteL. culveri. These creeks appear to be exhibiting early signs of degradation (e.g., a simplified food web). Two promising community-level macrobenthic metrics for assessing environmental quality were identified: the proportional abundance of pollution indicative taxa, and the proportional abundance of pollution sensitive taxa. These indicators were significantly (p<0.05) correlated with the salinity range, the level of chemical contaminants in sediments, and amount of impervious surface in the watershed. 相似文献
2.
Christopher Buzzelli A. Frederick Holland Denise M. Sanger Paul C. Conrads 《Estuaries and Coasts》2007,30(2):321-330
Many coastal ecosystems are undergoing anthropogenic stress from large increases in population and urbanization. In many regions
changes in freshwater and material inputs to the coastal zone are altering the biogeochemical and biological capacities of
ecosystems. Despite increased watershed inputs, large tidal volumes and flushing indicative of macrotidal estuaries can modulate
the fate of introduced materials masking some of the symptoms of eutrophication. The Land Use Coastal Ecosystem Study (LU-CES)
examined linkages between land use and environmental properties of Malind and Okatee Creeks in South Carolina from 2001 to
2004. The objectives of this particular study were to assess the hydrography of the two macrotidal creek ecosystems, explore
differences in dissolved oxygen (DO), and develop a better understanding of the variations in primary and benthic secondary
production in southeastern creek ecosystems. Depth, pH, salinity, and DO were reduced and more variable in Malind Creek than
in Okatee Creek, although both creeks had strong semidiurnal frequencies in salinity time signatures. While time series analyses
of DO saturation in Malind Creek revealed a dominant semidiurnal pattern, Okatee Creek had a distinctly diel DO pattern. The
strongly semidiurnal fluctuations in DO and reduced flushing time indicated that biological processes were not fast enough
to influence DO in Malind Creek. The Okatee Creek system had a much greater storage volume, a wider marsh, and a dominant
25-h DO frequency. These attributes contributed to an estimated 8–10 times more phytoplankton-based carbon in Okatee Creek
and twice the annual benthic production. As expected from their proximity to the upland, low surface area, and high organic
content, both ecosystems were net heterotrophic. This fundamental understanding of tidal creek hydrography is being used to
help define linkages among differential watershed land uses, flushing characteristics, and levels of biological production
in coastal ecosystems of the southeastern United States. 相似文献
3.
In a large (8 ha) salt marsh restoration site, we tested the effects of excavating tidal creeks patterned after reference
systems. Our purposes were to enhance understanding of tidal creek networks and to test the need to excavate creeks during
salt marsh restoration. We compared geomorphic changes in areas with and without creek networks (n = 3; each area 1.3 ha)
and monitored creek cross-sectional areas, creek lengths, vertical accretion, and marsh surface elevations for 5 yr that included
multiple sedimentation events. We hypothesized that cells with creeks would develop different marsh surface and creek network
characteristics (i.e., surface elevation change, sedimentation rate, creek cross-sectional area, length, and drainage density).
Marsh surface vertical accretion averaged 1.3 cm yr−1 with large storm inputs, providing the opportunity to assess the response of the drainage network to extreme sedimentation
rates. The constructed creeks initially filled due to high accretion rates but stabilized at cross-sectional areas matching,
or on a trajectory toward, equilibrium values predicted by regional regression equations. Sedimentation on the marsh surface
was greatest in low elevation areas and was not directly influenced by creeks. Time required for cross-sectional area stabilization
ranged from 0 to > 5 yr, depending on creek order. First-order constructed creeks lengthened rapidly (mean rate of 1.3 m yr−1) in areas of low elevation and low vegetation cover. New (volunteer) creeks formed rapidly in cells without creeks in areas
with low elevation, low vegetation cover, and high elevation gradient (mean rate of 6.2 m yr−1). After 5 yr, volunteer creeks were, at most, one-fourth the area of constructed creeks and had not yet reached the upper
marsh plain. In just 4 yr, the site’s drainage density expanded from 0.018 to reference levels of 0.022 m m−2. Pools also formed on the marsh plain due to sediment resuspension associated with wind-driven waves. We conclude that excavated
creeks jump-started the development of drainage density and creek and channel dimensions, and that the tidal prism became
similar to those of the reference site in 4–5 yr. 相似文献
4.
为研究潮沟发育演变动力机制,建立了以江苏中部粉砂淤泥质潮滩-潮沟系统为原型的降比尺物理模型,模拟在潮汐作用下,潮沟系统从平坦滩面逐渐形成、发育演变至动态平衡状态的过程,并分析了潮沟系统在不同阶段的形态特征。研究结果表明:潮沟系统发育速率先快后慢,最终达到动态平衡状态。采用潮沟发育各阶段潮沟系统的总长度与终态潮沟总长度的比值以及潮沟及其相邻处潮滩的高程变化速率两种方法,均可以衡量潮沟系统的发育程度。潮沟系统发育达到动态平衡后,各级潮沟个数占潮沟总数量的比例基本固定。潮沟的宽度、深度、宽深比均符合对数正态分布。潮沟的宽度与宽深比、深度与宽深比之间均具有幂函数关系。 相似文献
5.
To assess the potential influence of coastal development on estuarine-habitat quality, we characterized land use and the intensity of land development surrounding small tidal tributaries in Tampa Bay. Based on this characterization, we classified tributaries as undeveloped, industrial, urban, or man-made (i.e., mosquito-control ditches). Over one third (37 %) of the tributaries have been heavily developed based on landscape development intensity (LDI) index values >5.0, while fewer than one third (28 %) remain relatively undeveloped (LDI?<?3.0). We then examined the nekton community from 11 tributaries in watersheds representing the four defined land-use classes. Whereas mean nekton density was independent of land use, species richness and nekton-community structure were significantly different between urban and non-urban (i.e., undeveloped, industrial, man-made) tributaries. In urban creeks, the community was species-poor and dominated by high densities of poeciliid fishes, Poecilia latipinna and Gambusia holbrooki, while typically dominant estuarine taxa including Menidia spp., Fundulus grandis, and Adinia xenica were in low abundance and palaemonid grass shrimp were nearly absent. Densities of economically important taxa in urban creeks were only half that observed in five of the six undeveloped or industrial creeks, but were similar to those observed in mosquito ditches suggesting that habitat quality in urban and mosquito-ditch tributaries is suboptimal compared to undeveloped tidal creeks. Furthermore, five of nine common taxa were rarely collected in urban creeks. Our results suggest that urban development in coastal areas has the potential to alter the quality of habitat for nekton in small tidal tributaries as reflected by variation in the nekton community. 相似文献
6.
In the tidal creeks of the southeastern United States, the numerically and ecologically dominant macrobenthic organisms are
typically oligochaetes. Due to their relatively small size and difficult taxonomy, little is known about the short-term and
seasonal changes in the oligochaetes of tidal creeks. This study presents a report of the spatial and temporal changes of
the oligochaete taxa within and between two tidal creeks in southern South Carolina, at monthly intervals over a 13-month
period. These changes are framed within the reference of monthly changes in benthic chlorophylla, sediment composition, and porewater ammonia, as well as in the perspective of seasonal changes in the entire tidal creek
macrobenthic community. The most abundant oligochaete found in this study was the tubificidMonopylephorus rubroniveus, followed by the naidParanais litoralis and the tubificidsTubificoides heterochaetus andT. brownae. All of the oligochaetes exhibited strong month-to-month and spatial changes, indicative of changes in water quality and
sediment habitat characteristics (e.g., low dissolved oxygen, high benthic chlorophylla). There were significant correlations between the abundance of most species and either benthic chlorophylla concentration or the silt-clay fraction of the sediment. Looking at short-term changes in this rapidly changing component
of the macrobenthic community provides insight not only into the ecology of the oligochaetes, but also into the changes in
the tidal creek ecosystem and their potential effects on other biota. 相似文献
7.
Donna Marie Bilkovic 《Estuaries and Coasts》2011,34(1):129-147
To investigate the effects of dredging and associated development pressures (i.e., shoreline armoring, developed land use)
on fish, three sets of paired dredged and undredged tidal creeks were surveyed within Lynnhaven River, Virginia. Fish species
diversity, community abundance, biomass, and size structure were compared among creeks and related to watershed, shoreline,
and physicochemical characteristics. Mean fish community characteristics (e.g., abundance) were similar among creeks; however,
species-specific analysis revealed subtle differences. Species biomass differed between dredged and undredged creeks, though
species abundance was similar. Turbidity highly influenced differences in species abundance among creeks, while organic matter,
dissolved oxygen, turbidity, and shoreline hardening may be influencing biomass patterns. The most recently dredged creek
appeared to provide less suitable nursery habitat for some species than historically dredged creeks, suggesting initial adverse
effects with eventual recovery. Protective measures, such as preservation of marshes, dredge depth, and time-of-year restrictions,
may be moderating development and dredging pressures. 相似文献
8.
J. O. Blanton A. J. Garrett J. S. Bollinger D. W. Hayes L. D. Koffman J. Amft 《Estuaries and Coasts》2009,32(3):573-592
In late December 1991, an accidental release of 5,700 CI of tritiated water (HTO) from the Savannah River Site was transported
via site streams into the Savannah River where it was carried downstream to the coastal zone. HTO released into a semitropical
Georgia estuary was forced into the tidal marshes surrounding the estuary as well as discharged directly into the Atlantic
Ocean. The spreading of HTO was studied with a 3D hydrodynamic model (ALGE) that includes flooding and draining of intertidal
areas. Comparisons of model simulations to measured HTO concentration showed that ALGE simulated well the general increase
and decrease of HTO as its plume passed a given area. The “sheet flow” approximation for marsh and small tidal creek flow
largely compensated for lack of model resolution and accurate bathymetry in areas with numerous small to medium-sized tidal
creeks. The water volume of the unresolved tidal creeks had to be accounted for in the simulations by increasing the initial
water depth over the marshes. ALGE and a simple box model both reproduced the trapping of HTO in intertidal areas. The time
scale over which intertidal areas import and export HTO back to the tidal channels varies between 10 and 30 days. 相似文献
9.
滨海盐沼是重要的陆地-海洋交界带生态系统。目前国际上存在关于盐沼的两大假设:盐沼系统输出养分和盐沼植物带状分布。为验证这两大假设,增强对盐沼湿地的了解,盐沼孔隙水流动及溶质运移研究至关重要。为模拟复杂盐沼系统孔隙水流动及溶质运移,改进了美国地质勘测局编制的SUTRA程序。基于假定的潮沟横断面物理条件,对孔隙水流动及溶质运移过程进行了模拟分析。结果表明潮沟附近孔隙水及溶质交换较快,潮水浸淹会减缓潮沟附近出现物质集结。落潮时潮沟附近有明显垂向流和水平流,远潮沟地带主要为水平流。潮沟附近土壤通气条件较好。这些模拟结果较好的吻合了潮沟附近较盐沼内部盐沼植物长势较好的现象。 相似文献
10.
Flow paths of water and sediment in a tidal marsh: Relations with marsh developmental stage and tidal inundation height 总被引:1,自引:0,他引:1
This study provides new insights in the relative role of tidal creeks and the marsh edge in supplying water and sediments to and from tidal marshes for a wide range of tidal inundation cycles with different high water levels and for marsh zones of different developmental stage. Net import or export of water and its constituents (sediments, nutrients, pollutants) to or from tidal marshes has been traditionally estimated based on discharge measurements through a tidal creek. Complementary to this traditional calculation of water and sediment balances based on creek fluxes, we present novel methods to calculate water balances based on digital elevation modeling and sediment balances based on spatial modeling of surface sedimentation measurements. In contrast with spatial interpolation, the presented approach of spatial modeling accounts for the spatial scales at which sedimentation rates vary within tidal marshes. This study shows that for an old, high marsh platform, dissected by a well-developed creek network with adjoining levees and basins, flow paths are different for tidal inundation cycles with different high water levels: during shallow inundation cycles (high water level <0.2 m above the creek banks) almost all water is supplied via the creek system, while during higher inundation cycles (high water level >0.2 m) the percentage of water directly supplied via the marsh edge increases with increasing high water level. This flow pattern is in accordance with the observed decrease in sedimentation rates with increasing distance from creeks and from the marsh edge. On a young, low marsh, characterized by a gently seaward sloping topography, material exchange does not take place predominantly via creeks but the marsh is progressively flooded starting from the marsh edge. As a consequence, the spatial sedimentation pattern is most related to elevation differences and distance from the marsh edge. Our results imply that the traditional measurement of tidal creek fluxes may lead in many cases to incorrect estimations of net sediment or nutrient budgets. 相似文献
11.
Intertidal creeks are shallow, photic ecosystems that potentially serve as sources of prey for many predators within estuaries. In a previous study, the link between nekton community structure and hydrogeomorphological variables for eight intertidal creeks was assessed for North Inlet estuary, South Carolina. Herein, we advance their findings through ecological network analysis of foodweb structure within two creeks and infer nekton trophic relationships to geomorphology and potential influences of hydrological condition and change. A summer network of a shallow, wide creek demonstrated greater carbon recycling, trophic efficiency and flow through consumers than that of a deep, narrow creek representing the same period. We infer greater export of nekton carbon from the former creek. These results were supported by analyses of nekton effective trophic levels and guilds across the eight creeks. Shallow, wide intertidal creeks appear to provide both physical and foodweb attributes that promote good nekton habitat relative to deeper and narrower creeks. Human alterations to flow regimes and sea-level rise have the ability to affect geomorphology of individual creeks and the landscape as a whole. These changes in turn have the potential to alter food webs of intertidal creeks and their ability to serve as sources of food for the larger estuary. 相似文献
12.
Mummichog,Fundulus heteroclitus, were collected weekly from a southern New Jersey high-salinity salt marsh from October 1988 to June 1989 and from September 1989 to June 1990 to determine the overwintering habitat. Major habitat types sampled within the salt marsh were subtidal creek, intertidal creeks, and salt-marsh pools. Few individuals were collected in the intertidal creek or the subtidal creek from the end of October through the beginning of May for both years, when creek water temperatures were low. Both young-of-the-year and adults of both sexes were abundant in the salt-marsh pools (total lengths ranged from 29 mm to 125 mm) throughout the winter. In the spring, catch per unit effort (CPUE) within the tidal creek increased with increasing water temperature, while CPUE in marsh pools decreased with increases in estuarine water temperature. These collection patterns indicate that the majority ofF. heteroclitus may move from subtidal and intertidal creeks into salt-marsh pools in the late fall and leave in the spring. This seasonal movement could explain how fish survive winter environmental conditions because daily average water temperatures of salt-marsh pools were warmer than subtidal creek temperatures for much of the winter. 相似文献
13.
长江口九段沙湿地是国家级自然保护区,认识植被覆盖与潮沟网络间的关系对保护九段沙湿地意义重大。基于长时序Landsat和HJ-1A多光谱图像,提取并分析长江口九段沙湿地潮沟和植被覆盖度数据。结果表明:① 1996—2020年间,潮沟总长度以每年11.71 km速度增加,植被覆盖面积以每年4.79 km2速度增加,至2020年潮沟等级最高为四级;②历年潮沟分布特征变化与高植被覆盖度区域密切相关;③各级别潮沟中,一级潮沟对潮沟网络的平均归槽水流长度影响最大,而不同植被覆盖参数中,植被覆盖面积影响最大;④平均归槽水流长度与植被覆盖面积符合指数函数关系,随着植被覆盖面积的增大,平均归槽水流长度逐渐减小,即潮沟网络排水效率增大。 相似文献
14.
为研究潮汐作用下潮沟网络形成、演变规律,结合江苏沿海粉砂淤泥质潮滩实际情况,建立试验室物理模型,模拟具有一定坡度的潮滩在潮汐作用下的地形演变,分析了潮沟发育演变中的水沙运动规律,研究了潮差对于潮沟发育的影响。研究表明,潮沟发育过程受到床面坡度变化的影响,坡度均一的潮滩上,潮沟系统通过相邻小潮沟相互连接而形成,没有明显的潮沟头部溯源侵蚀现象;在潮汐作用下,涨潮初期和落潮后期水流流速较快,泥沙运动主要出现在这一阶段,在潮滩中部泥沙运动最为剧烈;潮差对于潮沟系统形态和结构的影响较小,潮滩排水路径长度与子流域面积呈幂函数分布,潮差越大则潮沟系统越早达到动态平衡,且具有更大的拓宽潮沟的作用。 相似文献
15.
Rochelle Plutchak Kelly Major Just Cebrian C. Drew Foster Mary-Elizabeth C. Miller Andrea Anton Kate L. Sheehan Kenneth L. HeckJr. Sean P. Powers 《Estuaries and Coasts》2010,33(6):1355-1364
The ability of oysters to remove large quantities of particulates from the water column, thereby potentially improving water
quality, has been cited as one of the reasons for oyster reef restoration. However, this ability has not yet been effectively
demonstrated in the field. As part of the Alabama Oyster Reef Restoration Project, this study was designed to assess impacts
of restored eastern oyster (Crassostrea virginica) reefs on primary production, nutrient dynamics, and water quality in shallow tidal creeks. Using a Before–After-Control–Impact
(BACI) design, we monitored tidal creeks around Dauphin Island, AL, for changes induced by the introduction of oyster reefs.
Reef placement resulted in increased ammonium (NH4+) in two of the three experimental creeks. Interestingly, oyster reefs did not seem to reduce water column particulates or
have an impact on phytoplankton or microphytobenthic biomass or productivity. We do not believe that our data discount the
importance and/or usefulness of oysters in modifying the water column. Rather, we acknowledge that it is difficult to detect
these impacts/environmental services in this type of system (i.e., a tidal creek system), because they seem to be very localized
and short-lived (i.e., not ecologically relevant on a creek-wide scale). This study highlights the need to consider location
and habitat in planning oyster restoration projects. Also, it demonstrates that the types, magnitudes, and spatial extent
of changes in ecosystem services that should be expected after reef restoration might need to be re-evaluated. 相似文献
16.
Sediments exposed at low tide on the transgressive, hypertidal (>6 m tidal range) Waterside Beach, New Brunswick, Canada permit the scrutiny of sedimentary structures and textures that develop at water depths equivalent to the upper and lower shoreface. Waterside Beach sediments are grouped into eleven sedimentologically distinct deposits that represent three depositional environments: (1) sandy foreshore and shoreface; (2) tidal‐creek braid‐plain and delta; and, (3) wave‐formed gravel and sand bars, and associated deposits. The sandy foreshore and shoreface depositional environment encompasses the backshore; moderately dipping beachface; and a shallowly seaward‐dipping terrace of sandy middle and lower intertidal, and muddy sub‐tidal sediments. Intertidal sediments reworked and deposited by tidal creeks comprise the tidal‐creek braid plain and delta. Wave‐formed sand and gravel bars and associated deposits include: sediment sourced from low‐amplitude, unstable sand bars; gravel deposited from large (up to 5·5 m high, 800 m long), landward‐migrating gravel bars; and zones of mud deposition developed on the landward side of the gravel bars. The relationship between the gravel bars and mud deposits, and between mud‐laden sea water and beach gravels provides mechanisms for the deposition of mud beds, and muddy clast‐ and matrix‐supported conglomerates in ancient conglomeratic successions. Idealized sections are presented as analogues for ancient conglomerates deposited in transgressive systems. Where tidal creeks do not influence sedimentation on the beach, the preserved sequence consists of a gravel lag overlain by increasingly finer‐grained shoreface sediments. Conversely, where tidal creeks debouch onto the beach, erosion of the underlying salt marsh results in deposition of a thicker, more complex beach succession. The thickness of this package is controlled by tidal range, sedimentation rate, and rate of transgression. The tidal‐creek influenced succession comprises repeated sequences of: a thin mud bed overlain by muddy conglomerate, sandy conglomerate, a coarse lag, and capped by trough cross‐bedded sand and gravel. 相似文献
17.
Ryan S. King William V. Deluca Dennis F. Whigham Peter P. Marra 《Estuaries and Coasts》2007,30(3):469-481
The invasion of North American tidal marshes byPhragmites australis, or common reed, is a large-scale ecological problem that has been primarily studied at small spatial scales. Previous local-scale
studies have provided evidence that the expansion ofPhragmites is facilitated by disturbance and increased nitrogen (N) associated with agricultural and urban-suburban (developed) land
uses along wetland-upland borders. We tested the generality of previous findings across a larger spatial scale and wider range
of environmental conditions in Chesapeake Bay, the largest estuarine ecosystem in the USA. We sampled 90 tidal wetlands nested
within 30 distinct subestuarine watersheds and examined the relationship between land use andPhragmites abundance and foliar N, an indicator of nitrogen availability. We estimated land use adjacent to wetland borders and within
subestuary watersheds and explored the importance of spatial proximity by weighting land use by its distance from the wetland
border or subestuary shoreline, respectively. Regression tree and changepoint analyses revealed thatPhragmites abundance sharply increased in almost every wetland where development adjacent to borders exceeded 15%. Where development
was <15% but natural land cover at the near the subestuary shoreline was low (<∼35%),Phragmites was abundant, suggesting that wetlands in highly modified watersheds also were susceptible to invasion, regardless of land
use adjacent to wetlands.Phragmites foliar N was markedly elevated in watersheds with >14–22% shoreline development, the same level of development that corresponded
to high levels of invasion. Our results suggest that development near wetlands is at least partially responsible for patterns
of invasion across Chesapeake Bay. Larger-scale phenomena, such as nitrogen pollution at the watershed-subestuary scale, also
may be facilitating invasion. Urbanization near coastlines appears to play an important role in the invasion success ofPhragmites in coastal wetlands of Chesapeake Bay and probably much of eastern North America. 相似文献
18.
《Proceedings of the Geologists' Association. Geologists' Association》2017,128(2):180-197
This paper demonstrates the decisive role of natural preconditions on the formation of large late Holocene sea ingressions in peaty coastal plains along the North Sea’s southern shores. Geological and archaeological evidence shows that these sea ingressions (expansion of new tidal systems) were mainly caused by land subsidence, which occurred due to intensified agricultural use of artificially drained peatlands since the Late Iron Age (250–12 BC). This made the coastal plain sensitive to storm-surge ingression through weak spots, e.g., at the location of existing creeks, in the coastline.Using The Netherlands as a case study, we show that natural preconditions (i.e., the geological setting at the time of ingression) played a key role in the pacing and extent of tidal area expansion. Ingressive tidal systems eventually reached most far inland in coastal segments with wide peaty back-barrier plains. In contrast, sea ingression formation was hampered in coastal segments with well-developed natural ingression-protecting geomorphic features (e.g., beach-barriers, supratidal levees). Feedback mechanisms, such as additional peat subsidence by loading of sediment imported into the new tidal area, caused further tidal volume increase and created accommodation space for tidal deposits. These combined effects caused irreversible sea ingression over large areas that consequently became unsuitable for habitation for many centuries.Improved understanding of such sea-ingression mechanisms and their facilitating conditions are essential for the assessment of the sensitivity of many densely populated coastal plains, which experience major human-induced subsidence, eventually leading to coastal plain drowning. 相似文献
19.
Quarterly field sampling was conducted to characterize variations in water column and sediment nutrients in a eutrophic southern
California estuary with a history of frequent macroalgal blooms. Water column and sediment nutrient measures demonstrated
that Upper Newport Bay (UNB) is a highly enriched estuary. High nitrate (NO3
−) loads from the river entered the estuary at all sampling times with a rainy season (winter) maximum estimated at 2,419 mol
h−1. This resulted in water NO3
− concentration in the estuary near the river mouth at least one order of magnitude above all other sampling locations during
every seasons; maximum mean water NO3
− concentration was 800 μM during springer 1997. Phosphorus (P)-loading was high year round (5.7–90.4 mol h−1) with no seasonal pattern. Sediment nitrogen (N)-content showed a seasonal pattern with a spring maximum declining through
fall. sediment and water nutrients, as well as percent cover of three dominant macroalgae, varied between the main channel
and tidal creeks. During all seasons, water column NO3
− concentrations were higher in the main channel than in tidal creeks while tidal creeks had higher levels of sediment total
Kjeldhal nitrogen (TKN) and P. During each of the four sampling periods, percent cover ofEntermorpha intestinalis andCeramium spp. was higher in tidal creeks than in the main channel, while percent cover ofUlva expansa was always higher in the main channel. Decreases in sediment N in both creek and channel habitats were concurrent with increases
in macroalgal cover, possibly reflecting use of stored sediment TKN by macroalgae. Our data suggest a shift in primary nutrient
sources for macroalgae in UNB from riverine input during winter and spring to recycling from sediments duirng summer and fall. 相似文献
20.
Analysis of 75 vibracores from the backbarrier region of Kiawah Island, South Carolina reveals a complex association of three distinct stratigraphic sequences. Beach ridge progradation and orientation-controlled backbarrier development during the evolution of Kiawah Island, and resulted in deposition of: (1) a mud-rich central backbarrier sequence consisting of low marsh overlying fine-grained, tidal flat/lagoonal mud; (2) a sandy beach-ridge swale sequence consisting of high and low marsh overlying tidal creek channel and point bar sand, and foreshore/shoreface; and (3) a regressive sequence of sandy, mixed, and muddy tidal flats capped by salt marsh that occurs on the updrift end of the island. Central backbarrier deposits formed as a result of the development of the initial beach ridge on Kiawah Island. Formation of this beach ridge created a backbarrier lagoon in which fine-grained estuarine and tidal flat mud accumulated. Washovers, oyster mounds, and tidal creek deposits form isolated sand and/or shell-rich lenses in the lagoon. Spartina alterniflora low marsh prograded into the lagoon as the tidal flats aggraded. Barrier progradation and sediment bar-bypassing at Stono Inlet created digitate beach ridges on the northeast end of Kiawah Island. Within the beach-ridge swales, tidal flats were disconformably deposited on shoreface and foreshore sand of the older beach ridges. Tidal creek drainage systems evolved to drain the swales. These rapidly migrating creeks reworked the tidal flat, foreshore, and shoreface sediments while redepositing a fining-upward sequence of channel lag and point bar deposits, which served as a substrate for salt marsh colonization. This resultant regressive sedimentary package marks the culmination of barrier island development and estuary infilling. Given enough time and sedimentation, the backbarrier sequence will ultimately prograde over the barrier island, reworking dune, beach, and foreshore sediments to form the upper sand-rich bounding surface of the barrier lithosome. Preservation of the regressive sequence is dependent upon sediment supply and the relative rate of sea-level rise, but the reworking of barrier islands by tidal inlets and migrating tidal creeks greatly alter and complicate the stratigraphic sequence. 相似文献