| 631 | 15 | 70 |
| 下载次数 | 被引频次 | 阅读次数 |
通过对目前生态动力学模型的总结和综合,以生态系统中氮、磷营养盐循环为主线,建立了适用于海洋围隔浮游生态系统的多变量的营养盐迁移-转化动力学模型。该模型包括浮游植物、浮游动物、溶解无机态营养盐、溶解有机态营养盐和生物碎屑5个模块,涉及溶解无机氮、磷酸盐、溶解有机氮、溶解有机磷、浮游植物、浮游动物和生物碎屑7个状态变量。利用2002年8月末莱州湾围隔生态实验数据进行了模型的验证工作,成功地模拟了富加营养盐条件下围隔浮游生态系统中氮、磷营养盐生物化学迁移-转化过程,并通过灵敏度分析探讨了模型主要状态变量对参数改变的灵敏程度。
Abstract:A dynamic model for nitrogen and phosphorus transport and transformation in mesocosm was established according to the summary and synthesis of the models available,in which 7 state variables(DIN,PO4-P,DON,DOP,phytoplankton,zooplankton and detritus) were included.Logically it had 5 modules—phytoplankton,zooplankton,dissolved inorganic nutrients,dissolved organic nutrients and detritus.The results showed that this model could simulate the variations of DIN,PO4-P,and phytoplankton biomass in the pelagic ecosystem in mesocosm properly,based on the site experiment data in Laizhou Bay at the end of August in 2002.Not only the logical structure but also the model parameters were feasible,and the sensitivity of the main state variables to the parameter change was discussed by sensitivity analysis.All of these were necessary for studying the control mechanism of nutrients biogeochemical cycling in Laizhou Bay and other Chinese coastal waters.
[1]叶常明.多介质环境污染研究[M].北京:科学出版社,1997:120-134.
[2]Riley G A.Factors controlling phytoplankton populations on GeorgesBank[J].Journal of Marine Research,1946,6:54-73.
[3]Riley G A.Atheoretical analysis of the zooplankton population ofGeorges Bank[J].Journal of Marine Research,1947,7(2):104-113.
[4]Lotka A J.Elements of physical biology[M].Balti more,USA:Williams and Wilkins,1925.
[5]Volterra V.Variations andfluctuation of the numbers of individualsinani mal specieslivingtogether[M].//Chapman R N.ed.Ani mal E-cology.New York:McGraw Hill,1926:409-448.
[6]Fransz H G,Mommaerts J P,Radach G.Ecology modelling of theNorth Sea[J].Netherlands Joural of Sea Research,1991,28(1/2):67-140.
[7]Moll A,Radach G.Reviewof three-di mensional ecological modellingrelated to the North Sea shelf systemPart 1:models and their results[J].Progress in Oceanography,2003,57(2):175-217.
[8]高会旺,冯士,管玉平.海洋浮游生态系统动力学模式的研究[J].海洋与湖沼,2000,31(3):341-348.
[9]唐启升,苏纪兰,孙松,等.中国近海生态系统动力学研究进展[J].地球科学进展,2005,20(12):1288-1299.
[10]吴增茂,俞光耀.海洋生态系统动力学模型的基本特征及其研究进展[J].地球科学进展,1996,11(1):13-18.
[11]Chen C,Ji R,Zheng L,et al.Influences of physical processes onthe ecosystem in Jiaozhou Bay:a coupled physical and biologicalmodel experi ment[J].Journal of Geophysical Research,1999,104(C12):29925-29949.
[12]Cui MC,Zhu H.Coupled physical-ecological modelling in the cen-tral part of Jiaozhou Bay.II.Coupled with an ecological model[J].Chinese Journal of Oceanology and Li mnology,2001,19(1):21-28.
[13]Ren L,Zhang M,Brockmann U H,et al.Pelagic nitrogen cyclingin Jiaozhou Bay,a model study I:the conceptual model[J].ChineseJournal of Oceanology and Li mnology,2003,21(4):358-367.
[14]Wan Z W,Yuan Y L,Qiao F L.2-order turbulence closure plank-ton ecosystemdynamics model andits application[J].Journal of Hy-drodynamics,Ser.B,2001,3:17-23.
[15]Wu Z M,Zhai X M,Zhang Z N,et al.Asi mulation analysis onpelagic-benthic coupling ecosystem of the northern Jiaozhou Bay,Qingdao,China[J].Acta Oceanologica Sinica,2001,20(3):443-453.
[16]俞光耀,吴增茂,张志南,等.胶州湾北部水层生态动力学模型与模拟I-胶州湾北部水层生态动力学模型[J].青岛海洋大学学报,1999,29(3):421-428.
[17]吴增茂,俞光耀,张志南,等.胶州湾北部水层生态动力学模型与模拟II胶州湾北部水层生态动力学的模拟研究[J].青岛海洋大学学报,1999,29(3):429-435.
[18]吴增茂,翟雪梅,张志南,等.胶州湾北部水层-底栖耦合生态系统的动力学数值模拟分析[J].海洋与湖沼,2001,32(6):588-597.
[19]Gao H,Feng S,Guan Y.Modelling annual cycles of pri mary pro-ductionin different regions of the Bohai Sea[J].Fisheries Oceanog-raphy,1998,7(3/4):258-264.
[20]Wei H,Sun J,Moll A.Phytoplankton dynamics in the Bohai Sea-observations and modeling[J].Journal of Marine Systems,2004,44(3-4):233-251.
[21]高会旺,王强.1999年渤海浮游植物生物量的数值模拟[J].中国海洋大学学报:自然科学版,2004,34(5):867-873.
[22]苏纪兰,唐启升,等.中国海洋生态系统动力学研究:II渤海生态系统动力学过程[M].北京:科学出版社,2002:445.
[23]赵亮,魏皓,冯士.渤海氮磷营养盐的循环和收支[J].环境科学,2002,23(1):78-81.
[24]张书文,夏长水,袁业立.黄海冷水团水域物理—生态锅合数值模式研究[J].自然科学进展,2002,12(3):312-320.
[25]田恬,魏皓,苏健,等.黄海氮磷营养盐的循环和收支研究[J].海洋科学进展,2003,21(1):1-11.
[26]乔方利,袁业立,朱明远,等.长江口海域赤潮生态动力学模型及赤潮控制因子研究[J].海洋与湖沼,2001,31(1):93-100.
[27]陈尚.长江口海区浮游生态系统对富磷的响应—现场围隔实验与数值模拟[D].青岛:青岛海洋大学,2002.
[28]管卫兵,王丽娅,许东峰.珠江河口氮和磷循环及溶解氧的数值模拟I.模式建立[J].海洋学报,2003a,25(1):52-60.
[29]管卫兵,王丽娅,许东峰.珠江河口氮和磷循环及溶解氧的数值模拟II.模拟结果[J].海洋学报,2003b,25(1):61-68.
[30]Hong HS,Shang S L.Adynamic box model of bioactive elementsinthe southern Tai wan strait[J].Chinese Journal of Oceanologyand Li mnology,1994,12(2):120-130.
[31]Shang S L,Hong HS.Avertical distribution model of nutrients anddissolved oxygenin the southern Tai wan Strait[J].Chinese Journalof Oceanology and Li mnology,1995.13(1):51-61.
[32]高会旺,孙文心,翟雪梅.水层生态系统动力学模型参数的灵敏度分析[J].青岛海洋大学学报,1999,29(3):398-404.
[33]唐启升,苏纪兰.中国海洋生态系统动力学研究:I关键科学问题与研究发展战略[M].北京:科学出版社,2000:251.
[34]陆贤.海洋围隔生态系实验在海洋污染控制中的应用[J].环境科学,1987,8(4):78-83.
[35]Grice G D,Reeve MR.Marine Mesocosm:biological and chemicalresearchin experi mental ecosystems[M].New York:Springer-Verlag,1982:430.
[36]Baretta-Bekker J G,Riemann B,Baretta J W,et al.Testingthe mi-crobial loop concept by comparing mesocosmdata with results fromadynamical si mulation model[J].Marine Ecology Progress Series,1994,106:187-198.
[37]Baretta-Bekker J G,Baretta J W,Hansen AS,et al.An i mprovedmodel of carbon and nutrient dynamics in the microbial food web inmarine enclosures[J].Aquatic Microbial Ecology,1998,14:91-108.
[38]Beyers RJ,Odum H T.Ecological Microcosms[M].New York:Springer-Verlag,1993.
[39]Baretta J W,Ebenh h W,Ruardij P.The Eutopean Regional SeasEcosystem Model:a complex marine ecosystem model[J].Nether-lands Joural of Sea Research,1995,33(3/4):233-246.
[40]Ebenh h W,Baretta-Bekker J G,Baretta J W.The pri mary produc-tion moduleinthe marine ecosystem model ERSEMII,with empha-sis on the light forcing[J].Journal of Sea Research,1997,38:173-193.
[41]GB 12763-91,海洋调查规范[S].
[42]GESAMP(I MO/FAO/UNESCO-IOC/WMO/WHO/IAEA/UN/UNEPJoint Group of Experts on the Scientific Aspects of MarinePollution).Coastal modelling[R].Rome:Report and StudiesGESAMP,1991.43:187.
[43]Baretta J W,Admiraal W,Colijn F,et al.The construction of thepelagic submodel[C].//Baretta J W,Ruardij P,eds.Tidal flatestuaries:Si mulation and analysis of the Ems estuary.Ecol.Stud-ies.71.Heidelberg:Springer-Verlag,1988:77-104.
[44]Varela R A,Cruzado A,Gabaldon J E.Modelling pri mary produc-tionin the North Sea using the European Regional Seas EcosystemModel[J].Netherlands Journal of Sea Research,1995,33(3/4):337-361.
[45]Baretta-Bekker J G,Baretta J W,Koch Rasmussen E.The micro-bial food webin the European Regional Seas Ecosystem Model[J].Netherlands Joural of Sea Research,1995,33(3/4):363-379.
[46]Broekhuizen N,Heath MR,Hay SJ,et al.Modellingthe dynamicsof the North Sea’s mesozooplankton[J].Netherlands Joural of SeaResearch,1995,33(3/4):381-406.
[47]Ebenh h W,Kohl meier C,Radford PJ.The benthic biological sub-model inthe European Regional Seas Ecosystem Model[J].Nether-lands Joural of Sea Research,1995,33(3/4):423-452.
[48]Eppley R W.Temperature and Phytoplankton Growth in the Sea[J].Fish Bulletin,U.S.1972,70:1063-1085.
[49]Radach G,Moll A.Esti mation of the variability of production bysi mulating annual cycles of phytoplankton in the central North Sea[J].Progress in Oceanography,1993,31(4):339-419.
[50]Schnoor J L.Environmental Modeling[M].New York:John Wiley&Sons Inc,1996:185-229.
[51]Steele J H.Environmental control of photosynthesis in the sea[J].Li mnology and Oceanography,1962,7(2):137-150.
[52]周允华,项月琴,单福芝.光合有效辐射(PAR)的气候学研究[J].气象学报,1984,42(4):387-397.
[53]王炳忠,税亚欣.关于光合有效辐射的气候学计算问题[J].太阳能学报,1988,9(1):59-65.
[54]Dobson F W,Smith S D.Bulk models of solar radiation at sea[J].Quarterly Journal of the Royal Meteorological Society,1988,114(479):165-182.
[55]Riley G A.Oceanography of Long Island Sound 1952-1954Ⅱ.Physical oceanography[J].Bulletin of the Bingham OceanographicCollection,1956,15:15-46.
[56]Dugdale R C.Nutrient li mitation in the sea:dynamics,identifica-tion,and significance[J].Li mnology and Oceanography,1967,12(4):685-695.
[57]Laws E,Caperon J.Carbon and nitrogen metabolismby Monochry-sis lutheri:measurement of growth-rate-dependent respiration rates[J].Marine Biology,1976,36(1):85-97.
[58]Zlotnik I,Bubinsky Z.The effect of light and temperature on DOCexcretion by phytoplankton[J].Li mnology and Oceanography,1989,34:831-839.
[59]Fasham MJ R,Duklow H W,McKelvie S M.A nitrogen-basedmodel of plankton dynamics in the oceanic mixed layer[J].Journalof Sea Research,1990,48:591-639.
[60]Butler E I,Corner E D S,Marshall S M.On the nutrition andmetabolism of zooplankton.Ⅵ.Feeding efficiency of Calanus interms of nitrogen and phosphorus[J].Journal of the Marine Biologi-cal Association of the UK,1969,49:977-1001.
[61]Peters R H.The ecological i mplications of body size[M].Cam-bridge:Cambridge Univ.Press,1983.
[62]Huntley MR,Boyd C.Food-li mited growth of marine zooplankton[J].The American Naturalist,1984,124:455-479.
[63]Schartau M,Oschlies A,Willebrand J R.Parameter esti mates of azero-di mensional ecosystem model applying the adjoint method[J].Deep-Sea Research II,2001,48:1769-1800.
[64]Harmon R,Challenor P A.Markov chain Monte Carlo method foresti mation and assi milation into models[J].Ecological Modelling,1997,101(1):41-59.
[65]Kirkpatrick S,Gelatt Jr C D,Vecchi MP.Opti mization bysi mulat-ed annealing[J].Science,1983,220:671-680.
[66]J Rgensen S E,Nielsen S N,J rgensen L A.Handbook of ecologicalparameters and Ecotoxicology[M].Amsterdam London,NewYork:Elsevier Press,1991:1263.
[67]Wen Y H,Peters R H.Empirical models of phosphorus and nitrogenexcretion rates by zooplankton[J].Li mnology and Oceanography,1994,39(7):1669-1679.
[68]Chapelle A,Lazure P,Menesguen A.Modelling EutrophicationEventsin a Coastal Ecosystem.Sensitivity Analysis[J].Estuarine,Coastal and Shelf Science,1994,39:529-548.
[69]Jones R,Henderson E W.The dynamics of nutrient regenerationand si mulation studies of the nutrient cycle[J].Journal du Conceil,1986,43:216-236.
[70]Redfield AC,KetchumB H,Richards F A.Theinfluence of organ-isms onthe composition of seawater[M].//Hill MN,ed.The Sea(Vol 2).New York:John Wiley,1963:26-77
[71]Carpenter E J,Capone D G.Nitrogen in the Marine Environment[M].New York:Academic Press,1983:900.
[72]张蕾.海洋浮游植物生长模型的研究———营养盐和石油烃对海洋浮游植物生长的影响[D].青岛:青岛海洋大学,2002.
[73]Savchuk O P.Nutrient biogeochemical cycles in the Gulf of Riga:scaling up field studies with a mathematical model[J].Journal ofMarine Systems,2002,32:253-280.
[74]Hakanson L.The role of characteristic coefficients of variationin un-certainty and sensitivity analyses,with examples relatedtothe struc-turing of lake eutrophication models[J].Ecological Modeling,2000,131(1):1-20.
基本信息:
DOI:10.16441/j.cnki.hdxb.2007.06.023
中图分类号:P734.44
引用信息:
[1]李克强,王修林,韩秀荣,等.莱州湾围隔浮游生态系统氮、磷营养盐迁移-转化模型研究[J].中国海洋大学学报(自然科学版),2007,No.158(06):987-994.DOI:10.16441/j.cnki.hdxb.2007.06.023.
基金信息:
国家自然科学基金项目(40136020);; 国家海洋局908专项(908-02-02-03);; 青岛市科技发展项目(06-2-2-7-nsh)资助
2007-11-15
2007-11-15