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Throughout the world there is a general consensus among environmentalists that there should be an increase in the amount of
marine area that should be reserved in marine protected areas (MPAs). In fact, the 1998 Philippines Fishery Code indicates
a need for designation of at least 15% of municipal waters for fish refuges or sanctuaries. Such an increase in area would
take productive fishing areas away from fishing communities that can ill-afford the loss. The larger the protected area, there
will be a greater number of people impacted. This article examines the relationship between factors that influence the success
of Community Based MPA (CBMPA) performance in the Visayas, Philippines and their significance in efforts to increase the size
of protected areas. 相似文献
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本文以中心虚点源法为基础,通过虚设源强与误差分析相结合的方式,对某烧结厂环冷机组面源TSP(总悬浮颗粒物)无组织排放的源强进行了反推计算,得到该面源在监测期间TSP排放量范围在12300 ~ 20790mg/s,最小总误差只有9.3%.其中16 ~30μm粒径段颗粒物占的比例最大达28%.并对这种系统误差浮动产生的原因进行了分析,发现选取较大风速条件进行模拟时可以减小系统误差.同时采用spss软件对源排放量与实际工况进行了多元线性回归分析,发现环冷机的颗粒物无组织排放与其核心生产原料混匀矿相关性最大,推测该环冷机组粉尘无组织排放量大的根本原因是机组的超负荷使用. 相似文献
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随着油田开发阶段的延长,污水处理系统能力出现不足,排污系统和日常排污以及收油是影响油田污水处理水质的重要因素。针对这些因素提出利用人工湿地对洗井、修井污水进行处理,减轻水处理站压力,通过合理加药提高除油罐除油效率,从含油污水进口进行杀菌,防止对管线设备的腐蚀,防止细菌菌体堵塞过滤器,过滤后根据细菌监测结果再次进行杀菌,保证出水合格等改善措施。 相似文献
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Edna Granéli Paulo S. Salomon 《Journal of the American Water Resources Association》2010,46(1):108-120
Granéli, Edna and Paulo S. Salomon, 2010. Factors Influencing Allelopathy and Toxicity in Prymnesium parvum. Journal of the American Water Resources Association (JAWRA) 46(1):108-120. Abstract: Some microalgae are able to kill or inhibit nutrient-competing microalgae, a process called allelopathy. Inhibiting or killing competitors enable these species to monopolize limiting resources, such as nitrogen and phosphorus. Prymnesium parvum is known to produce such allelopathic compounds, substances that seem identical to the ichthyotoxins identified from this species. Biotic and abiotic environmental factors influence not only growth rates but also toxin/allelopathic compounds production by P. parvum cells. Toxin production, as well as allelopathy, including grazer deterrence, increases dramatically in light, temperature, or nutrient stressed P. parvum cells. Correspondingly, toxicity and allelopathy may decrease, or cease completely, if cells are grown with high amounts of N and P in balanced proportions. However, even under nutrient (N and P) sufficient conditions, P. parvum is able to produce toxins/allelopathic compounds, with negative effects on other phytoplankton species or grazers, if cells densities of P. parvum are high relative to other species. This negative effect might shift the plankton community to more toxin resistant species. Filtrates from nutrient-deficient P. parvum cultures have almost the same strong negative effect on grazers and other phytoplankton species as when Prymnesium cells are grown together with the target organisms. Eutrophication, the increased input of N and P to aquatic ecosystems, besides increasing nutrient concentrations, is usually provoking unbalanced N:P condition for the optimal growth of phytoplankton, deviating from the Redfield ratio, i.e., the phytoplankton cellular nitrogen to phosphorus ratio, N:P = 16:1 (by atoms) or 7.2:1 (by weight). Eutrophication thus both enhances P. parvum growth and increases production of toxins and allelopathic compounds. Supplying N-deficient or P-deficient P. parvum cells with the deficient nutrient reduces toxicity to less than half within 24 h after additions. As P. parvum is mixotrophic, uptake of dissolved or particulate organic N (DON or PON) can also reduce toxicity and allelopathy in the same manner as addition of inorganic N to N-starved cells. In conclusion, P. parvum, by increasing its toxicity and allelopathic ability under poor environmental conditions, outcompetes the co-occurring phytoplankton species. 相似文献