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921.
Spatial Analysis of Production by Macrophytes,Phytoplankton and Epiphyton in a Large River System under Different Water-Level Conditions 总被引:1,自引:0,他引:1
Relative contributions by macrophytes, epiphyton and phytoplankton to total primary production was estimated in a large (∼300 km2) widening of the St. Lawrence River (Canada), over a 2-year period with contrasting flows and water levels. Spatially-explicit
estimates of whole-system production were obtained by combining field measurements with remotely sensed data and empirical
models using GIS. Primary production and relative contributions of each producer type differed markedly between open-water
and wetland habitats. Spatial differences within each habitat arose from interactions between physical factors including light,
water depth, water transit times and wind stress. At the whole-system level, annual primary production represented 105 gC m−2 y−1, divided roughly equally among phytoplankton (34%), submerged macrophytes (27%), emergent macrophytes (23%) and epiphyton
(16%). A 10% decrease in annual flows and 1-m decline in water levels between 2000 and 2001 resulted in a 50% loss of marsh
habitat, a 60% increase in phytoplankton production in the open-water zone, and in the appearance of conspicuous filamentous
algal mats. Low water levels induced substantial shifts in the spatial configuration and relative importance of primary producers
although total river primary production remained stable between years. 相似文献
922.
Sensitivity of CO<Subscript>2</Subscript> Exchange of Fen Ecosystem Components to Water Level Variation 总被引:1,自引:0,他引:1
Abstract
Climate change is predicted to bring about a water level (WL) draw-down in boreal peatlands. This study aimed to assess the
effect of WL on the carbon dioxide (CO2) dynamics of a boreal oligotrophic fen ecosystem and its components; Sphagnum mosses, sedges, dwarf shrubs and the underlying peat. We measured CO2 exchange with closed chambers during four growing seasons in a study site that comprised different vegetation treatments.
WL gradient in the site was broadened by surrounding half of the site with a shallow ditch that lowered the WL by 10–25 cm.
We modeled gross photosynthesis (P
G) and ecosystem respiration (R
ECO) and simulated the CO2 exchange in three WL conditions: prevailing and WL draw-down scenarios of 14 and 22 cm. WL draw-down both reduced the P
G and increased the R
ECO, thus leading to a smaller net CO2 uptake in the ecosystem. Of the different components, Sphagnum mosses were most sensitive to WL draw-down and their physiological activities almost ceased. Vascular plant CO2 exchange, en bloc, hardly changed but whereas sedges contributed twice as much to the CO2 exchange as shrubs in the prevailing conditions, the situation was reversed in the WL draw-down scenarios. Peat respiration
was the biggest component in R
ECO in all WL conditions and the increase in R
ECO following the WL draw-down was due to the increase in peat respiration. The results imply that functional diversity buffers
the ecosystem against environmental variability and that in the long term, WL draw-down changes the vegetation composition
of boreal fens. 相似文献
923.
A bioluminescent assay of total bacterial contamination (TBC) of drinking water (DW) with a detection limit of approximately 1 CFU/mL and duration of less than 7 h has been developed. The protocol of the TBC assay comprises: incubation of water sample in nutrition broth supplemented with salts mixture, up to 6 h; filtration of bacterial suspension obtained through membrane filter (pore size 0.45 microm); release of bacterial ATP by dimethyl sulphoxide; determination of bacterial ATP concentration using highly sensitive ATP reagent based on recombinant Luciola mingrelica luciferase. To simplify the assay, special luminometer microcuvette Filtravette (New Horizons Diagnostics Corp., USA) are used. A good correlation (R=0.98) between ATP concentration measured after 6 h incubation and initial bacterial titre in DW was observed. Semi-quantitative TBC assay of DW is also available. The TBC value in DW is assessed by the fixation of incubation time required to detect a measurable bioluminescent signal: 3, 4 and 6 h corresponds to 100-1000, 10-100 and 1-10 CFU/mL, respectively. 相似文献
924.
The natural remobilization of an initially static mixed dense non-aqueous phase liquid (DNAPL) pool due to dissolution was demonstrated by (Roy et al. 2002, 2004) using a compositional mathematical model and laboratory experiments with open pools over a porous medium. The purposes of this study were to: a) demonstrate natural remobilization for a pool within porous media (as opposed to an open pool); and b) analyze the capillary effects associated with residual formation, a changing saturation profile, hysteresis, and aging, as these processes may reduce the potential for natural remobilization of pools in porous media. DNAPL pools comprised of tetrachloroethene and benzene were created within a zone of larger glass beads overlying smaller glass beads, in a water-saturated 2-D flow cell. In one case, remobilization occurred in the form of a DNAPL finger, after 56 days of flushing. In another case, no remobilization had occurred after 64 days of flushing, though the density increased by 430 kg m ?3 and remobilization was predicted by the compositional model. Comparison of observations with model predictions suggest that contact angle hysteresis, related to an observed change in wettability, was the most significant contributing factor causing overprediction of the potential for natural remobilization. 相似文献
925.
926.
Uttam Kumer Sarker Md. Romij Uddin Ahmed Khairul Hasan Md. Abdur Rahman Sarkar Md. Abdus Salam Md. Alamgir Hossain Eldessoky S. Dessoky Ismail A. Ismail 《Phyton》2022,91(8):1687-1708
In irrigated agricultural systems, nitrogen (N) and water are the vital resources for sustainability of the crop production in the modern era of climate change. The current study aimed to assess the impact of water and N management on the productivity of irrigated rice cultivars. In the context, a field observation was done at the research
farm of Bangladesh Agricultural University, Mymensingh, during dry seasons in consecutive two years (2018–2019 and 2019–2020). The experiments were set up following split-plot design assigning water management in
the main plots, nitrogen management in the sub-plots, and the cultivars were approved in the split-split plot with
three replications. After two years observation, it was revealed that rice cultivar Binadhan-8 gave the maximum
value of leaf area index, number effective tillers hill-1 and grains panicle-1 which lead to the higher grain yield
(GY). Substantial relationships were observed among the concentration of N, growth, total dry matter (TDM)
and N content, N uptake, N utilization effectiveness, and GY. However, with little exception, the Combined effect
of water and N, cultivars and water management were varied significantly for all parameters. Finally, the results of
the current study concluded that application of irrigation at 8 days after the disappearance of ponded water
and source of 105 kg N ha-1 from PU + Poultry manure are the best management approach for the excellent performance of rice cultivar Binadhan-8. 相似文献
927.
Human GMP reductase (hGMPR) enzyme is involved in a cellular metabolic pathway, converting GMP into IMP, and also it is an important target for anti-leukemic agents. Present computational investigations explain dynamical behavior of water molecules during the conformational transition process from GMP to IMP using molecular dynamics simulations. Residues at substrate-binding site of cancerous protein (PDB Id. 2C6Q) are mostly more dynamic in nature than the normal protein (PDB Id. 2BLE). Nineteen conserved water molecules are identified at the GMP/IMP binding site and are classified as (i) conserved stable dynamic and (ii) infrequent dynamic. Water molecules W11, W14, and W16 are classified as conserved stable dynamic due to their immobile character, whereas remaining water molecules (W1, W2, W3, W4, W5, W7, W8, W9, W10, W12, W13, W15, W17, W18, and W19) are infrequent with dynamic nature. Entrance or displacement of these infrequent water molecules at GMP/IMP sites may occur due to forward and backward movement of reference residues involving ligands. Four water molecules of hGMPR-I and nine water molecules of hGMPR-II are observed in repetitive transitions from GMP to IMP pathway, which indicates discrimination between two isoforms of hGMPRs. Water molecules in cancerous protein are more dynamic and unstable compared to normal protein. These water molecules execute rare dynamical events at GMP binding site and could assist in detailed understanding of conformational transitions that influence the hGMPR's biological functionality. The present study should be of interest to the experimental community engaged in leukemia research and drug discovery for CML cancer. 相似文献
928.
Recognition and Response to Native and Novel Predators in the Largespring mosquitofish,Gambusia geiseri
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Chelsea A. Blake Laura Alberici da Barbiano Jessica E. Guenther Caitlin R. Gabor 《Ethology : formerly Zeitschrift fur Tierpsychologie》2015,121(3):227-235
The introduction of predator species into new habitats is an increasingly common consequence of human activities, and the persistence of native prey species depends upon their response to these novel predators. In this study, we examined whether the Largespring mosquitofish, Gambusia geiseri exhibited antipredator behavior and/or an elevation of circulating stress hormones (cortisol) to visual and chemical cues from a native predator, a novel predator, or a non‐predatory control fish. Prey showed the most pronounced antipredator response to the native predator treatment, by moving away from the stimulus, while the prey showed no significant changes in their vertical or horizontal position in response to the novel or non‐predator treatments. We also found no significant difference in water‐borne cortisol release rates following any of the treatments. Our results suggest the prey did not recognize and exhibit antipredator behavior to the novel predator, and we infer that this predator species could be detrimental if it expands into the range of this prey species. Further, our study demonstrates prey may not respond to an invasive predator that is phylogenetically, behaviorally, and morphologically dissimilar from the prey species' native predators. 相似文献
929.
930.