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1.
Isotopic Determination of Food Web Origins in Restoring and Ancient Estuarine Wetlands of the San Francisco Bay and Delta 总被引:1,自引:0,他引:1
We compared the extent to which ancient and restoring wetlands in three estuary regions of San Francisco Bay support estuarine
ecosystems through food web contributions. In comparison to mature marshes, we hypothesized that food webs of increasingly
younger restoration sites would display increased dependency upon allochthonous subsidies due to nominal internal production.
Using multiple stable isotopes (δ13C, δ15N, δ34S) in a mixing model, we traced links among primary producers and estuarine consumers. Results indicate that food webs of
estuarine marshes are heavily dependent upon autochthonous marsh materials (76 ± 17%), even within the youngest restoration
marshes (11 years). Nearly all sampled organisms relied upon autochthonous marsh materials, with the exception of Neomysis kadiakensis, a mysid shrimp, which derived the majority of its support from freshwater-produced phytoplankton. Marsh-derived organic
matter (OM) support was consistent both temporally throughout the year and spatially along the three estuary regions, but
evidence suggests that the specific type of OM supporting estuarine consumers depends on position along the estuarine gradient
and on seasonal shifts in freshwater flow. These results indicate that wetland restoration rapidly provides important contributions
to marsh consumers and potentially bolsters food web linkages in shallow-water ecosystems. 相似文献
2.
Catarina Vinagre João Salgado Henrique N. Cabral Maria J. Costa 《Estuaries and Coasts》2011,34(4):663-674
River flow variability is known to influence estuarine production, yet knowledge on its effect upon estuarine food webs dynamics
is still scarce. Stable carbon and nitrogen isotopes were used to assess the effect of river flow in the connectivity and
food web interactions between the two main fish nursery areas of the Tagus estuary. The aims of the present work were to investigate
the seasonal variation in food web structure and the exchange rate of individuals of marine juvenile fish among estuarine
nurseries, to compare the spring of a rainy year (2001) with that of an average year (2000), and to investigate the impact
of the winter floods of 2001. A low level of connectivity was observed for the fish species that use these areas as nurseries.
In low river flow conditions, two isotopically distinct food webs were established in each nursery area. These food webs were
very sensitive to small variations in the freshwater input. Winter floods seem to disrupt the localized food webs that are
established in low river flow periods, leading to the re-establishment of a wider food web. While in rainy years this wide
food web is maintained until spring, in average years the food web undergoes fragmentation into two localized and isotopically
distinctive food webs. The increase in frequency of droughts due to climate change should lower the connectivity of the estuarine
fish nurseries food webs, causing habitat fragmentation and consequent loss in complexity and resilience. 相似文献
3.
Estuarine salinity distributions reflect a dynamic balance between the processes that control estuarine circulation. At seasonal and longer time scales, freshwater inputs into estuaries represent the primary control on salinity distribution and estuarine circulation. El Niño-Southern Oscillation (ENSO) conditions influence seasonal rainfall and stream discharge patterns in the Tampa Bay, Florida region. The resulting variability in freshwater input to Tampa Bay influences its seasonal salinity distribution. During El Niño events, ENSO sea surface temperature anomalies (SSTAs) are significantly and inversely correlated with salinity in the bay during winter and spring. These patterns reflect the elevated rainfall over the drainage basin and the resulting elevated stream discharge and runoff, which depress salinity levels. Spatially, the correlations are strongest at the head of the bay, especially in bay sections with long residence times. During La Niña conditions, significant inverse correlations between ENSO SSTAs and salinity occur during spring. Dry conditions and depressed stream discharge characterize La Niña winters and springs, and the higher salinity levels during La Niña springs reflect the lower freshwater input levels. 相似文献
4.
Establishing links between migration patterns and trophic dynamics is paramount to ecological studies investigating the functional role habitats provide to resident and transient species. Natural tags in fishes, such as otolith chemistry and tissue stable isotopes, can help reconstruct previous environmental and dietary histories, although these approaches are rarely combined. A novel multiproxy natural tag approach was developed to estimate immigration patterns of juvenile Atlantic croaker Micropogonias undulatus, across contrasting salinity gradients in three subtropical estuaries of the western Gulf of Mexico. Juvenile young-of-year Atlantic croaker were collected along a latitudinal gradient that included positive, neutral, and negative estuaries, based on physicochemical (temperature, salinity, dissolved element) and isotopic (δ15N and δ13C) parameters. Otolith elemental chronologies of Sr/Ca and Ba/Ca were used to classify migratory types within each estuary, while tissue-specific isotope ratios revealed time since recent (liver~weeks) and longer term (muscle~months) diet shifts. Nitrogen isotopes in both liver and muscle tissues were highly correlated, suggesting tissue equilibrium and estuarine residence of at least 3 months, with geographic δ15N gradients reflecting the magnitude of anthropogenic nutrient enrichment within each estuary. Differences in isotopic equilibrium of muscle-liver δ13C values and variation in marginal edge otolith Sr/Ca and Ba/Ca suggested recent shifts in carbon source and habitat utilization, reflecting individualized movement across seascapes and connectivity of habitat mosaics. The multiproxy approach presented here identified diverse migration patterns and linked feeding and movement on regional (inter-estuary), local (intra-estuary), and individual scales to improve our understanding of habitat function across estuarine gradients. 相似文献
5.
The goal of this study was to determine the food web pathways supporting juvenile Chinook (Oncorhynchus tshawytscha) salmon in the Columbia River estuary through multiple stable isotope analysis (δ13C, δ15N, δ34S). Using this method, we distinguished the role of various organic matter sources in Chinook food webs and interpreted the dynamics of their use both spatially and temporally within the estuary. Our results indicate that subyearling Chinook are associated with fluvial, anthropogenic, estuarine, and marine organic matter sources, with hatchery food and vascular plant detritus being the most dominant sources in juvenile Chinook food webs. Although freshwater phytoplankton is involved in many food web pathways to subyearling Chinook, increased phytoplankton production from the impounded river has not replaced the loss of autochthonous marsh production to fish. Our results indicate that large-scale ecosystem alteration may have decreased the availability and quality of food webs in the estuary and potentially diminished the ability of the Columbia to support Chinook salmon. 相似文献
6.
Christine Latal Werner E. Piller Mathias Harzhauser 《International Journal of Earth Sciences》2006,95(1):95-106
The Korneuburg Basin, with mainly upper Lower Miocene (Karpatian) sediment filling, is divided by the Mollmannsdorf–Obergänserndorf Swell into two sub-basins characterised by different environmental settings. Paleoecological data indicate a marine northern part and a mainly estuarine southern part. Nevertheless, short-termed marine ingressions from the north allowed marine faunas (ostracods, molluscs, and echinoids) to temporarily settle the southern part of the basin. The carbon and oxygen isotopic composition of gastropod shells from these different environmental settings were investigated. Highest δ18O and δ13C values are found in Turritella shells from the northern part of the basin, and in Turritella shells from layers interpreted as a marine ingression in the south. Generally, components of the mudflat fauna (Tympanotonos cinctus, Granulolabium bicinctum, Terebralia bidendata, and Ocenebra crassilabiata) have slightly lower isotope values. Considerable freshwater influx in the southern part is documented by abundant freshwater genera such as Melanopsis, which show low carbon and oxygen isotope values. Data of identical taxa, especially Turritella and Granulolabium, reflect a trend from higher isotope values at the marine northern part to slightly lower values in the mainly estuarine southern part of the basin. Differences in δ18O between the marine and the estuarine assemblages are interpreted to be caused by changes in salinity and isotopic composition of ambient water rather than by temperature. Paleotemperature estimates derived from oxygen isotope data are in good agreement with existing paleoclimatic proxies for the Korneuburg Basin. Hence, an annual range of the sea-surface temperature from 13 to 26°C can be predicted within that protected basin. 相似文献
7.
Detritus fuels ecosystem metabolism but not metazoan food webs in San Francisco estuary's freshwater delta 总被引:1,自引:0,他引:1
William V. Sobczak James E. Cloern Alan D. Jassby Brian E. Cole Tara S. Schraga Andrew Arnsberg 《Estuaries and Coasts》2005,28(1):124-137
Detritus from terrestrial ecosystems is the major source of organic matter in many streams, rivers, and estuaries, yet the
role of detritus in supporting pelagic food webs is debated. We examined the importance of detritus to secondary productivity
in the Sacramento and San Joaquin River Delta (California, United States), a large complex of tidal freshwater habitats. The
Delta ecosystem has low primary productivity but large detrital inputs, so we hypothesized that de tritus is the primary energy
source fueling production in pelagic food webs. We assessed the sources, quantity, composition, and bioavailability of organic
matter among a diversity of habitats (e.g., marsh sloughs, floodplains, tidal lakes, and deep river channels) over two years
to test this hypothesis. Our results support the emerging principle that detritus dominates riverine and estuarine organic
matter supply and supports the majority of ecosystem metabolism. Yet in contrast to prevailing ideas, we found that detritus
was weakly coupled to the Delta's pelagic food web. Results from independent approaches showed that phytoplankton production
was the dominant source of organic matter for the Delta's pelagic food web, even though primary production accounts for a
small fraction of the Delta's organic matter supply. If these results are general, they suggest that the value of organic
matter to higher trophic levels, including species targeted by programs of ecosystem restoration, is a function of phytoplankton
production. 相似文献
8.
The chemical reactivity of uranium was investigated across estuarine gradients from two of the world’s largest river systems: the Amazon and Mississippi. Concentrations of dissolved (<0.45 μm) uranium (U) were measured in surface waters of the Amazon shelf during rising (March 1990), flood (June 1990) and low (November 1991) discharge regimes. The dissolved U content was also examined in surface waters collected across estuarine gradients of the Mississippi outflow region during April 1992, August 1993, and November (1993). All water samples were analyzed for U by isotope dilution inductively coupled plasma mass spectrometry (ICP-MS). In Amazon shelf surface waters uranium increased nonconservatively from about 0.01 μg I?1 at the river’s mouth to over 3 μg I?1 at the distal site, irrespective of river discharge stage. Observed large-scale U removal at salinities generally less than 15 implies a) that riverine dissolved U was extensively adsorbed by freshly-precipitated hydrous metal oxides (e.g., FeOOH, MnO2) as a result of flocculation and aggregation, and b) that energetic resuspension and reworking of shelf sediments and fluid muds on the Amazon shelf released a chemically reactive particle/colloid to the water column which can further scavenge dissolved U across much of the estuarine gradient. In contrast, the estuarine chemistry of U is inconclusive within surface waters of the Mississippi shelf-break region. U behavior is most likely controlled less by traditional sorption and/or desorption reactions involving metal oxides or colloids than by the river’s variable discharge regime (e.g., water parcel residence time during estuarine mixing, nature of particulates, sediment storage and resuspension in, the confined lower river), and plume dispersal. Mixing of the thin freshwater lens into ambient seawater is largely defined by wind-driven rather than physical processes. As a consequence, in the Mississippi outflow region uranium predominantly displays conservative behavior; removal is evident only during anomalous river discharge regimes. ‘Products-approach’ mixing experiments conducted during the Flood of 1993 suggest the importance of small particles and/or colloids in defining a depleted U versus salinity distribution. 相似文献
9.
10.
The continued urbanization of coastal watersheds can influence the quality of water that enters rivers and estuaries. Intelligent
management of aquatic resources will require the capability to quantitatively assess and evaluate the impacts of alterations
in surface waters that result from changes in patterns of land use. An aquatic ecosystem model was developed and linked to
an empirical landscape model to estimate ecological risks posed by nutrients and potentially toxic trace elements (copper
[Cu], cadmium [Cd], arsenic [As]) in the Patuxent River, Maryland. The empirical landscape model translated reductions in
croplands within the Patuxent River watershed into corresponding changes in nitrate estimated to enter the river. Trace element
concentrations were increased in relation to urbanization associated with the loss of agricultural lands in the watershed.
The aquatic ecosystem model used the altered inputs of nutrients and trace elements to estimate changes in the annual production
dynamics of selected producer and consumer populations within the Patuxent River. The models were implemented for four mainstem
locations that defined a transect from the upper freshwater portion of the river to downstream estuarine locations. Ecological
impacts were estimated for 4 hypothetical changes in land use that consisted of 10%, 7.5%, 5%, and 2.5% watershed coverage
by cropland. Impacts were estimated as the probability (risk) of different magnitudes of increases or decreases in total annual
production of populations representative of freshwater and estuarine food webs in the Patuxent River. 相似文献
11.
The differences and similarities between near-pristine estuaries of different latitudinal regions were examined by selecting three tropical systems from North Queensland, Australia (Jardine, Annan, Daintree) and three temperate systems from Scotland, United Kingdom (Inverness, Cromarty, Dornoch Firths) for comparison. Although estuaries from the different regions have a number of unifying features, such as salinity gradients, tidal variations and terrestrial inputs they also have a number of important differences. The most distinct of these is the timing and variability of the major physical forcings on the estuary (e.g., river flow, insolation). The three tropical estuaries were much more episodic than their temperate counterparts, with a much more dynamic salinity structure and more variable riverwater concentrations, so that delivery of material to the estuary is dominated by short-lived flood events. In contrast, seawater concentrations were more stable in the tropical estuaries due to a more constant input of insolation, resulting in year round biological activity. There was biological removal of dissolved inorganic phosphorus in the low salinity region of the tropical Jardine and Daintree estuaries and a low salinity input of nitrate in the tropical Annan estuary most likely due to nitrification in the bottom sediments, and the biological reaction zone in the tropical Annan Estuary was flushed out of the estuarine basin to the edge of the offshore plume during a flood. Similar effects were not seen in the temperate Inverness, Cromarty, and Dornoch Firths. Similarities between estuaries include mid-estuary inputs of ammonium which were seen in both the temperate and tropical estuaries, although they occur under vastly contrasting conditions of low river discharge and periods of flood, respectively. Five of the estuaries show a general increase in dissolved inorganic phosphorus concentrations towards the sea during low flows, reflecting their pristine condition, and all six estuaries had low salinity silicate maxima probably sourced from the dissolution of freshwater biogenic silicate that has been carried seaward, except in the tropical estuaries during the dry season when a benthic source is proposed. 相似文献
12.
Raphaelle Escoube Olivier J. Rouxel Edward Sholkovitz 《Geochimica et cosmochimica acta》2009,73(14):4045-139
Recent studies have suggested that rivers may present an isotopically light Fe source to the oceans. Since the input of dissolved iron from river water is generally controlled by flocculation processes that occur during estuarine mixing, it is important to investigate potential fractionation of Fe-isotopes during this process. In this study, we investigate the influence of the flocculation of Fe-rich colloids on the iron isotope composition of pristine estuarine waters and suspended particles. The samples were collected along a salinity gradient from the fresh water to the ocean in the North River estuary (MA, USA). Estuarine samples were filtered at 0.22 μm and the iron isotope composition of the two fractions (dissolved and particles) were analyzed using high-resolution MC-ICP-MS after chemical purification. Dissolved iron results show positive δ56Fe values (with an average of 0.43 ± 0.04‰) relative to the IRMM-14 standard and do not display any relationships with salinity or with percentage of colloid flocculation. The iron isotopic composition of the particles suspended in fresh water is characterized by more negative δ56Fe values than for dissolved Fe and correlate with the percentage of Fe flocculation. Particulate δ56Fe values vary from −0.09‰ at no flocculation to ∼0.1‰ at the flocculation maximum, which reflect mixing effects between river-borne particles, lithogenic particles derived from coastal seawaters and newly precipitated colloids. Since the process of flocculation produces minimal Fe-isotope fractionation in the dissolved Fe pool, we suggest that the pristine iron isotope composition of fresh water is preserved during estuarine mixing and that the value of the global riverine source into the ocean can be identified from the fresh water values. However, this study also suggests that δ56Fe composition of rivers can also be characterized by more positive δ56Fe values (up to 0.3‰) relative to the crust than previously reported. In order to improve our current understanding of the oceanic iron isotope cycling, further work is now required to determine the processes controlling the fractionation of Fe-isotopes during continental run-off. 相似文献
13.
Geochemical (total nitrogen, total organic carbon, total phosphorus, total sulfur, and carbon and nitrogen stable isotopes) and selected biotic (diatom, foraminifera, polychaete) indicators preserved in two estuarine sediment cores from the mesohaline Chesapeake Bay provide a history of alterations in the food web associated with land-use change. One core from the mouth of the Chester River (CR) (collected in 2000) represents a 1,000-year record. The second core (collected in 1999), from the Chesapeake Bay’s main stem opposite the Choptank River (MD), represents a 500-year record. As European settlers converted a primarily forested landscape to agriculture, sedimentation rates increased, water clarity decreased, salinity decreased in some areas, and the estuarine food web changed into a predominantly planktonic system. Representatives of the benthic macrofaunal community (foraminifera and the polychaetes Nereis spp.) were affected by local changes before there were widespread landscape alterations. Nitrogen stable isotope records indicated that land-use changes affected nitrogen cycling beginning in the early 1700s. Extreme changes were evident in the mid-nineteenth century following widespread deforestation and since the mid-twentieth century reflecting heightened eutrophication as development increased in the Chesapeake Bay watershed. Results also demonstrate how paleoecological records vary due to the degree of terrestrial inputs of freshwater runoff and nutrients at core locations within the Chesapeake Bay. 相似文献
14.
Rachel Marie Wilson Jeffrey Chanton F. Graham Lewis Douglas Nowacek 《Estuaries and Coasts》2010,33(6):1406-1419
The goals of this study were to quantify organic matter source utilization by consumers in the freshwater-dominated region
(East Bay) of a high river flow estuary and compare the results to consumers in marine-influenced sites of the same estuary
to understand how organic matter utilization by consumers may be changing along the salinity gradient. We used the results
from these evaluations to establish the baseline against which we isotopically determined trophic level for consumers in East
Bay. Average isotope values for consumers sampled in East Bay ranged from −20.1‰ to −24.8‰ for carbon and from 8.9‰ to 14.3‰
for sulfur. These values were well-constrained by the four identified sources: plankton, benthic organic matter, macroalgae,
and terrestrial detritus. Application of a concentration-corrected mixing model resulted in contributions of benthic production
and detrital sources (averaged over the food web) to East Bay consumers of 41% and 33%, respectively, with the remainder made
up of plankton and benthic macroalage. While benthic organic matter was an important organic matter source for consumers at
both sites, we found that the influence of terrestrial detritus varied significantly throughout the bay. Terrestrial detritus
contributed only 18% of average total organic matter in organisms inhabiting marine-influenced sites. Although terrestrial
detritus did contribute to all consumers examined, most fish species in Apalachicola Bay reflect a greater reliance on autochthonous
sources. Our results suggest that, while terrestrial detritus does appear to be a major contributor to commercially important
shellfish species (most notably oysters and penaeid shrimp), it is not the major source fueling the diversity of secondary
production in Apalachicola Bay. Thus, production in Apalachicola Bay is highly dependent on riverine influx in two ways: (1)
economically important bivalves and crustaceans are being fueled by terrestrial organic matter supplied by river flooding
and (2) secondary and above consumer fish species are supported by in situ production which, in turn, is reliant on nutrients
supplied by the Apalachicola River. These findings are significant in light of decisions regarding water usage and river flow
restrictions in the Apalachicola-Chattahoochee-Flint drainage basin. The results of this study confirm that in situ estuarine
organic matter is the dominant source supporting secondary production in this river-dominated estuary. 相似文献
15.
E. O. Dubinina S. A. Kossova A. Yu. Miroshnikov N. M. Kokryatskaya 《Geochemistry International》2017,55(11):1022-1032
Oxygen and hydrogen isotope analysis was performed to study the processes of distribution of water masses and modification of their salinity in the Russian Arctic seas. A wealth of new isotopic data was obtained for freshwater (river runoff, Novaya Zemlya glaciers) and seawater samples collected along a set of extended 2D profiles in the Barents, Kara, and Laptev Seas. The study presents the first δD values measured for the Northeast Atlantic Deep Water NEADW dominated the water column of the Barents Sea (S = 34.90 ± 0.05, δD = +1.55 ± 0.4‰, δ18O = +0.26 ± 0.1‰, n = 44). This water mass is present in the Kara Sea and western Laptev Sea. The relationship between δD, δ18О, and salinity data was used to calculate the fractions of waters of different origin, including the fractions of continental runoff in waters of the Barents, Kara, and Laptev Seas. It was shown that the relationships between the isotopic parameters (δD, δ18О) and salinity in waters of the Kara and Laptev Seas is controlled by the intensity of continental runoff and sea ice processes. Sea ice formation is the main factor controlling the formation of the water column on the Laptev Sea shelf, whereas the surface waters of the middle Kara Sea are dominated by the contribution of river runoff. A very strong stratification in the Kara Sea is caused by the presence of a relatively fresh surface layer mostly contributed by estuarine water inputs from the Ob and Yenisei Rivers. The contribution of river waters reaches 40–60% in the surface layer in the central part of the sea and decreases to a few percent down 100 m water depth. Stratification in the western part of the Laptev Sea is controlled by the contribution of freshwater input from the Lena River and modification of salinity by sea ice formation. 相似文献
16.
Disturbances influence ecological communities over a wide range of scales. We investigated the effects of localized hypoxic
disturbances on an estuarine fish assemblage at several spatial (m2 and 10s km2) and temporal (days, seasons, years) scales in a multivariate framework (temperature, salinity, depth, dissolved oxygen).
We examined whether seasons, years) scales in a multivariate framework (temperature, salinity, depth, dissolved oxygen). We
examined whether there were consistent changes in fish and crustacean estuarine assemblage characteristics along environmental
gradients and whether these relationships were altered by hypoxic disturbances. We also investigated at what scale dissolved
oxygen concentration may be influencing the structure of motile estuarine assemblages and whether the size of the hypoxic
zone altered its effects on the estuarine assemblage. Hypoxic disturbances altered fish and crustacean assemblages along the
depth gradients that were present during well-oxygenated periods. Species diversity, richness, and catch rates were lower
in hypoxic patches than in oxygenated areas. Dissolved oxygen concentration remained an important explanatory variable for
patch-level assemblage dissimilarity, species richness, and diversity when data were aggregated across seasons. When we examined
the data at a larger scale, by aggregating information across the study area, we did not detect influences of hypoxia on assemblage
structure. Fish moved out of local hypoxic zones, but remained within the estuary even in years with extensive hypoxia. There
was no effect of size of the hypoxic distrubance on whether organisms responded to hypoxia or on diversity or richness of
the study site. These results suggest that these local disturbances play an important role in structuring motile species assemblages
at a patch-level within an estuary, but regional factors such as recruitment and migration are important in influencing species
assemblages for the entire estuary over months and years. 相似文献
17.
Marin F. D. Greenwood 《Estuaries and Coasts》2007,30(3):537-542
Organisms tend to inhabit predictable portions of estuaries along salinity gradients between the ocean inlets (salinity >
35 psu) and the freshwater tributaries (salinity = 0). Previous studies have suggested that the continuous change in biological
community structure along this gradient is relatively rapid at certain salinities. This is the basis for estuarine salinity
zonation schemes similar to the classic Venice System (i.e., 0–0.5, 0.5–5, 5–18, 18–30, 30–40, > 40). An extensive database
(n > 16,000 samples) of frequency of occurrence of nekton was used to assess evidence for estuarine salinity zones in two
southwest Florida estuaries: Tampa Bay and Charlotte Harbor. Rapid change in nekton community structure occurred at each end
of the estuarine salinity gradient, with comparatively slow (but steady) change in between. There was little strong evidence
for estuarine salinity zones at anything other than low salinities (0.1–1). As previously suggested by other authors, estuaries
may be regarded as ecoclines, because they form areas of relatively slow but progressive ecological change. The ends of the
estuarine salinity gradient appear to be ecotones (areas of rapid change) at the interfaces with adjacent freshwater and marine
habitats. This study highlights the rapid change that occurs in nekton community structure at low salinities, which is of
relevance to those managing freshwater inflow to estuaries. 相似文献
18.
We have determined the concentration and isotopic composition of Os and Sr in the estuarine waters from the Godavari delta in Peninsular India. Additionally, we have obtained the concentration and isotopic composition of Os and Al concentration in selected suspended particulate matter recovered on 0.45 μm filters. The Na, K, Mg, and Ca concentrations of water samples obtained along salinity gradients from two distributary channels in the delta display a general two component mixing between river- and sea-water. The data also reveal that Al behaves non-conservatively and is affected by interactions with suspended particulates. The 87Sr/86Sr ratio of the riverine end member is 0.716303 and shows a linear decrease with salinity to seawater value and Sr isotope systematics indicate that its behavior is conservative in the estuary.The 187Os/188Os ratio of the Godavari river end-member is 1.24 and within error of the average eroding upper continental crust. The concentration and isotopic composition of Os through the two salinity transects shows that its behavior in the Godavari estuary is complex and non-conservative. By comparing the Al/Os ratios and Os isotopes in the waters with those of the suspended particulate we find that both Os gains and losses occur in the water column. However, in one of the distributaries (Vasishta) the Os concentration of suspended load increases and that of dissolved load decreases with increasing salinity towards the Bay of Bengal end-member. We infer that there is removal of seawater Os at higher salinities. The estimated mean residence time of Os in the oceans is 37 ± 14 (2σ) kyr. A comparison of the Os concentration of the Bay of Bengal and the Indian Ocean waters indicates that the rainout rate of Os in Bay of Bengal is 30% faster than that in the open ocean and suggests that the observed discrepancy between the mean residence time calculated from mass balance considerations and that estimated from the relaxation of the Os isotopic ratio in marine record may not be real as the relaxation time experiments likely estimate the residence time for a basin/sub-basin and not for the entire ocean. 相似文献
19.
Maintaining proper freshwater and marine inputs is essential for estuarine function. Alteration of freshwater flows into small
tributaries that traverse the upland-estuarine margin may be especially problematic, e.g., by impacting the nursery areas
for juvenile finfish and shellfish. We used stomach contents and stable isotope analysis (δ13C, δ15N) to examine effects of freshwater flow alterations on the trophic ecology of juvenile common snook (Centropomus undecimalis) in four mangrove creeks with different freshwater flow regimes. Diet diversity in less degraded creeks was greater than
in more degraded creeks, and the importance (by % mass) of the top three preys was disproportionately higher in the more degraded
creeks. Stable isotope measures of trophic diversity corroborate these trends, suggesting higher intraspecific trophic diversity
in less degraded creeks. The difference in diet diversity of juvenile snook may be an indicator of an overall change in ecosystem
function and these shifts in food web structure may affect the rate that juveniles of this and other species with similar
habitat requirements successfully join the adult population. 相似文献
20.
Freshwater fraction and tidal prism models are simple methods for estimating the turnover time of estuarine water. The freshwater
fraction method prominently features flushing by freshwater inflow and has sometimes been criticized because it appears not
to include flushing by seawater, but this is accounted for implicitly because the average estuary salinity used in the calculation
reflects all the processes that bring seawater into the estuary, including gravitational circulation and tidal processes.
The model relies on measurable salinity differences among water masses and so must be used for estuaries with substantial
freshwater inflow. Tidal prism models are based on flushing by flood tide inflow and ignore seawater inflow due to gravitational
circulation. These models should only be applied to estuaries with weak or nonexistent gravitational circulation, which are
generally those with little freshwater inflow. Using a framework that is less ambioguous and more directly applicable to the
estimation of turnover times than those used previously, this paper critically examines the application of tidal prism models
in well-mixed estuaries with complete tidal exchange, partial ebb return, or incomplete flood mixing and in partially mixed
estuaries. Problems with self-consistency in earlier versions of these models also apply to the budgeting procedure used by
the LOICZ (Land-Ocean Interactions in the Coastal Zone) program. Although freshwater fraction and tidal prism models are different
approaches to estimating turnover times in systems with very different characteristics, consistent derivation shows that these
models have much in common with each other and that they yield equivalent values that can be used to make comparisons across
systems. 相似文献