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排序方式: 共有68条查询结果,搜索用时 15 毫秒
1.
在单因素试验、Plackett-Burman设计试验基础上,采用Box-Behnken响应面法对养殖水体中炔雌醇(EE2)的固相萃取条件进行优化。结果表明,洗脱液体积、洗脱液组成和淋洗液体积是影响EE2固相萃取回收率的3个主要因素;EE2的最佳固相萃取条件为:水样pH值为3,进样流量为3.0 mL/min,淋洗液为体积分数为10%的甲醇水溶液,淋洗液体积7.0 mL,洗脱液为乙酸乙酯-正己烷混合溶液(体积比为9∶1),洗脱液体积12.0 mL。该条件下养殖水样中EE2固相萃取回收率为81.6%~86.7%。 相似文献
2.
Increasing demand for seafood and the lack of growth of capture fisheries have boosted aquaculture growth worldwide. However, European aquaculture has been stagnating over the past decade, and European public authorities have been developing policies and strategies in efforts to reverse this. Aquaculture discourses in the European Union, based on 34 policy, planning, and strategy documents, are examined and a discourse analysis conducted following Bacchi’s WPR (What is the Problem Represented to be?) approach. How the problems in these discourses are represented, the tensions among main objectives, and the implicit assumptions are unveiled, and discussed employing a Polanyian theoretical framework. Taking these assumptions for granted leads to a disembedded understanding of aquaculture, and facilitates the privatization of aquatic space and resources. The analysis contributes to the literature establishing the link between the expansion of aquaculture and the enclosure of aquatic resources and enriches environmental and political debates on European aquaculture. 相似文献
3.
An ecosystem model for estimating potential shellfish culture production in sheltered coastal waters 总被引:1,自引:0,他引:1
A generic ecosystem model has been developed for estimating the potential production of shellfish culture and the effect of that cultivation on the pelagic ecosystem in sheltered coastal waters. The model describes the dynamics of a simple food web, nutrient cycling and growth of shellfish. The design of the model is closely tied to the temporal and spatial scales that are important in determining the sustainable production level for a particular embayment. The pelagic ecosystem, mussel energetics, population dynamics and hydrodynamics are coupled to allow fully dynamic predictions of the effect of the shellfish density. When applied to Beatrix Bay, an intensive culture embayment in the Pelorus Sound of New Zealand, the model successfully captured main features of the observed system behaviour. The hydrodynamic regime of the bay controls mussel growth and production. Although high fluxes of water into the bay suppress nutrient and carbon cycling signals in the system, the model simulations demonstrated that the mussel cultivation can have considerable effects on the ecosystem of the bay including food depletion and nutrient cycling. One of the most obvious effects is nutrient enhancement through mussel excretion at low cultivation densities, which promotes primary production particularly during the N-limitation period in summer. The sensitivity analysis identified uncertainty in some parameters and indicated areas for which experimental studies could lead to model improvement. The modelling exercise has established a primary predictive tool for managing mussel aquaculture of a coastal embayment to estimate relationships between the stock level and the growth rate of mussels, and the potentially achievable harvest and stocking density. 相似文献
4.
Ongoing eutrophication is changing the Baltic Sea ecosystem. Aquaculture causes relatively small-scale nutrient emissions,
but local environmental impact may be considerable. We used substance flow analysis (SFA) to identify and quantify the most
significant flows and stocks of nitrogen (N) and phosphorus (P) related to rainbow trout aquaculture in Finland. In 2004–2007,
the input of nutrients to the system in the form of fish feed was 829 t N year−1 and 115 t P year−1. Around one-fifth of these nutrients ended up as food for human consumption. Of the primary input, 70% ended up in the Baltic
Sea, directly from aquaculture and indirectly through waste management. The nutrient cycle could be closed partially by using
local fish instead of imported fish in rainbow trout feed, thus reducing the net load of N and P to a fraction. 相似文献
5.
Calculating ecological carrying capacity of shellfish aquaculture using mass-balance modeling: Narragansett Bay, Rhode Island 总被引:1,自引:0,他引:1
Increasing growth in the aquaculture industry demands ecosystem-based techniques for management if that growth is to be ecologically sustainable and promote equity among users of the ecosystems in which it occurs. Models of carrying capacity can be used to responsibly limit the growth of aquaculture in increasingly crowded coastal areas. Narragansett Bay, Rhode Island, USA is one such crowded coastal region experiencing a rapid increase in bivalve aquaculture. An ecosystem mass-balance model was used to calculate the ecological carrying capacity of bivalve aquaculture. Cultured oyster biomass is currently at 0.47 t km−2 and could be increased 625 times without exceeding the ecological carrying capacity of 297 t km−2. This translates to approximately 38,950 t of harvested cultured oysters annually which is 4 times the total estimated annual harvest of finfish. This potential for growth is due to the high primary productivity and large energy throughput to detritus of this ecosystem. Shellfish aquaculture has potential for continued growth and is unlikely to become food limited due, in part, to the large detritus pool. 相似文献
6.
7.
Norfloxacin (NOR), an ionizable antibiotic frequently used in the aquaculture industry, has aroused public concern due to its persistence, bacterial resistance, and environmental ubiquity. Therefore, we investigated the photolysis of different species of NOR and the impact of a ubiquitous component of natural water — dissolved organic matter (DOM), which has a special photochemical activity and normally acts as a sensitizer or inhibiter in the photolysis of diverse organics; furthermore, scavenging experiments combined with electron paramagnetic resonance (EPR) were performed to evaluate the transformation of NOR in water. The results demonstated that NOR underwent direct photolysis and self-sensitized photolysis via hydroxyl radical (·OH) and singlet oxygen (1O2) based on the scavenging experiments. In addition, DOM was found to influence the photolysis of different NOR species, and its impact was related to the concentration of DOM and type of NOR species. Photolysis of cationic NOR was photosensitized by DOM at low concentration, while zwitterionic and anionic NOR were photoinhibited by DOM, where quenching of UOH predominated according to EPR experiments, accompanied by possible participation of excited triplet-state NOR and 1O2. Photo-intermediate identification of different NOR species in solutions with/without DOM indicated that NOR underwent different photodegradation pathways including dechlorination, cleavage of the piperazine side chain and photooxidation, and DOM had little impact on the distribution but influenced the concentration evolution of photolysis intermediates. The results implied that for accurate ecological risk assessment of emerging ionizable pollutants, the impact of DOM on the environmental photochemical behavior of all dissociated species should not be ignored. 相似文献
8.
Jean-Paul Schwitzguébel Hailong Wang 《Environmental science and pollution research international》2007,14(7):446-544
Goal, Scope and Background Aquaculture activities are well known to be the major contributor to the increasing level of organic waste and toxic compounds
in the aquaculture industry. Along with the development of intensive aquaculture in China, concerns are evoked about the possible
effects of everincreasing aquaculture waste both on productivity inside the aquaculture system and on the ambient aquatic
ecosystem. Therefore, it is apparent that appropriate waste treatment processes are needed for sustaining aquaculture development.
This review aims at identifying the current status of aquaculture and aquaculture waste production in China.
Main Features China is the world’s largest fishery nation in terms of total seafood production volume, a position it has maintained continuously
since 1990. Freshwater aquaculture is a major part of the Chinese fishery industry. Marine aquaculture in China consists of
both land-based and offshore aquaculture, with the latter mostly operated in shallow seas, mud flats and protected bays. The
environmental impacts of aquaculture are also striking.
Results Case studies on pollution hot spots caused by aquaculture have been introduced. The quality and quantity of waste from aquaculture
depends mainly on culture system characteristics and the choice of species, but also on feed quality and management. Wastewater
without treatment, if continuously discharged into the aquatic environment, could result in remarkable elevation of the total
organic matter contents and cause considerable economy lost. Waste treatments can be mainly classified into three categories:
physical, chemical and biological methods.
Discussion The environmental impacts of different aquaculture species are not the same. New waste treatments are introduced as references
for the potential development of the waste treatment system in China. The most appropriate waste treatment system for each
site should be selected according to the sites’ conditions and financial status as well as by weighing the advantages and
disadvantages of each system. Strategies and perspectives for sustainable aquaculture development are proposed, with the emphasis
on environmental protection.
Conclusions Negative effects of waste from aquaculture to aquatic environment are increasingly recognized, though they were just a small
proportion to land-based pollutants. Properly planned use of aquaculture waste alleviates water pollution problems and not
only conserves valuable water resources but also takes advantage of the nutrients contained in effluent. It is highly demanding
to develop sustainable aquaculture which keeps stocking density and pollution loadings under environmental capacity.
Recommendations and Perspectives The traditional procedures for aquaculture waste treatment, mainly based on physical and chemical means, should be overcome
by more site-specific approaches, taking into account the characteristics and resistibility of the aquatic environment. Further
research needs to improve or optimize the current methods of wastewater treatment and reuse. Proposed new treatment technology
should evaluate their feasibility at a larger scale for practical application.
ESS-Submission Editor: Dr. Ding Wang (wangd@ihb.ac.cn) 相似文献
9.
Environmental Management - Are societal wastes all bad? Some of them, including heat from power plants and certain organic wastes, have been demonstrated to be potentially valuable for growing... 相似文献
10.
Biofilm responses to marine fish farm wastes 总被引:1,自引:0,他引:1
Sanz-Lázaro C Navarrete-Mier F Marín A 《Environmental pollution (Barking, Essex : 1987)》2011,159(3):825-832
The changes in the biofilm community due to organic matter enrichment, eutrophication and metal contamination derived from fish farming were studied. The biofilm biomass, polysaccharide content, trophic niche and element accumulation were quantified along an environmental gradient of fish farm wastes in two seasons. Biofilm structure and trophic diversity was influenced by seasonality as well as by the fish farm waste load. Fish farming enhanced the accumulation of organic carbon, nutrients, selenium and metals by the biofilm community. The accumulation pattern of these elements was similar regardless of the structure and trophic niche of the community. This suggests that the biofilm communities can be considered a reliable tool for assessing dissolved aquaculture wastes. Due to the ubiquity of biofilms and its wide range of consumers, its role as a sink of dissolved wastes may have important implications for the transfer of aquaculture wastes to higher trophic levels in coastal systems. 相似文献