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首页> 外文期刊>AMBIO: A Journal of the Human Environment >Searching Efficient Protection Strategies for the Eutrophied Gulf of Finland: The Combined Use of 1D and 3D Modeling in Assessing Long-term State Scenarios with High Spatial Resolution
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Searching Efficient Protection Strategies for the Eutrophied Gulf of Finland: The Combined Use of 1D and 3D Modeling in Assessing Long-term State Scenarios with High Spatial Resolution

机译:为芬兰富营养化的海湾寻找有效的保护策略:在评估具有高空间分辨率的长期国家情景时,结合使用1D和3D模型

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摘要

An experiment combining the use of two ecosystem models was conducted to search for effective protection strategies for the Gulf of Finland (Baltic Sea). Reference and scenario simulations were first run with a one-dimensional (1D) model for seven main basins of the entire Baltic Sea until steady state was achieved. The obtained basinwise distributions of inorganic nitrogen (N) and phosphorus (P), as well as sediment labile P, were then used to initiate 5-y simulations with a three-dimensional (3D) ecosystem model. The results suggest that relatively small local load reductions (the “Finland” scenario) would improve only the state of adjacent coastal waters significantly. This would be the case, even for runs covering several decades, which clearly exceed the residence times of nutrients in the Gulf of Finland. A significant decrease from a substantial loading source to the Gulf (the “St. Petersburg” scenario) would decrease cyanobacterial biomasses in the entire Gulf of Finland and also immediately outside it. A reduction in the current Polish nutrient loads would improve the situation in the whole Baltic Proper and cause an extensive decline in cyanobacterial biomasses in the Gulf of Finland, as well. However, it would take several decades until the improvement caused by reducing loads in the “Poland” scenario is seen, while in the “St. Petersburg” scenario the corresponding time lag would only be a few years. Our results suggest that the common water protection policy in the Baltic Sea region should have the largest nutrient sources as its primary target, regardless of their location and country.
机译:进行了结合使用两种生态系统模型的实验,以寻求对芬兰湾(波罗的海)的有效保护策略。首先使用一维(1D)模型对整个波罗的海的七个主要盆地进行参考和情景模拟,直到达到稳态。然后,使用获得的无机氮(N)和磷(P)的盆地分布以及不稳定的底泥P来通过三维(3D)生态系统模型启动5-y模拟。结果表明,相对较小的本地负荷减少(“芬兰”情景)将仅显着改善邻近沿海水域的状况。即使是几十年来的运行,情况也是如此,这显然超过了营养物在芬兰湾的停留时间。从大量装货源到海湾的大幅减少(“圣彼得堡”情景)将减少整个芬兰海湾以及紧接其外部的蓝藻生物量。当前波兰养分含量的减少将改善整个波罗的海地区的状况,并导致芬兰湾的蓝藻生物量也大量减少。但是,要想在“波兰”情景中减少负荷而获得改善,可能要花上几十年的时间,而在“圣保罗大教堂”中则要花费数十年。在“彼得斯堡”情景中,相应的时滞将只有几年。我们的结果表明,波罗的海地区的共同水资源保护政策应以最大的营养源为主要目标,而不论其地理位置和国家/地区如何。

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    《AMBIO: A Journal of the Human Environment》 |2007年第2期|p.272-279|共8页
  • 作者

    Heikki Pitkänen; Mikko Kiirikki; Oleg P. Savchuk; Antti Räike; Päivi Korpinen; Fredrik Wulff;

  • 作者单位

    Heikki Pitkänen, Ph.D., is a chief scientist at the Finnish Environment Institute. He studies the behavior and budgets of nutrients in river catchments and in the Baltic coastal and open sea waters. In 2003–2006 he has worked as the leader of the SEGUE Consortium (Searching efficient protection alternatives for the eutrophied Gulf of Finland: the integrated use of experimental and modelling tools) under the BIREME Program. His address: Finnish Environment Institute, Box 140, FI-00251 Helsinki, Finland. E-mail: heikki.pitkanen@ymparisto.fi;

    Mikko Kiirikki, Ph.D., works as a specialist in eutrophication and ecology at Luode Consulting (until 2005 senior scientist at the Finnish Environment Institute). He has much experience in the development and application of ecosystem models for the coastal and open Baltic Sea. His address: Luode Consulting, Olarinluoma 15, FI-02200 Espoo, Finland. E-mail: mikko.kiirikki@luode.net;

    Oleg P. Savchuk is a visiting researcher at the Department of Systems Ecology, Stockholm University, Sweden, being on leave of absence from the St. Petersburg branch of the State Oceanographic Institute, Russia, where he is head of Laboratory of the Baltic Sea Problems. He is also associate professor at the Department of Oceanology, St. Petersburg State University, Russia. He uses mathematical modeling as a tool to study marine ecosystems, with emphasis on nutrient biogeochemical cycles. His address: Department of Systems Ecology, Stockholm University, SE 10691 Stockholm, Sweden. E-mail: oleg@ecology.su.se;

    Antti Räike, M.Sc., is a senior scientist at the Finnish Environment Institute. His main interest is in the loading of the Baltic Sea and riverine transport of materials. His address: Finnish Environment Institute, Box 140, FI-00251 Helsinki, Finland. E-mail: antti.raike@ymparisto.fi;

    Päivi Korpinen, M.Sc., is a senior scientist at the Finnish Environment Institute. She has developed high-resolution three-dimensional model applications for various areas of the Baltic Sea. Her main area of interest is ecological and water quality modeling. Her address: Finnish Environment Institute, Box 140, FI-00251 Helsinki, Finland. E-mail: paivi.korpinen@ymparisto.fi;

    Fredrik Wulff is professor of marine systems ecology at the Department of Systems Ecology, Stockholm University. He also holds an adjunct position at the Centre for Marine Research at University of Queensland, Australia. He works mainly on the Baltic Sea, linking ecology, oceanography, and biogeochemistry with the economy. He is the scientific coordinator for MARE. He is also involved in global change research, particular studies on land–ocean interactions and coastal zone management. His address: Department of Systems Ecology, Stockholm University, SE 10691 Stockholm, Sweden. E-mail: Fred@ecology.su.se;

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