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Advances in Earth Science  2000, Vol. 15 Issue (6): 723-728    DOI: 10.11867/j.issn.1001-8166.2000.06.0723
YANG Ping, FU Bo-jie
Research Center for Eco-Environmental Sciences,CAS,Beijing 100085,China
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The study on land use change and land-ocean interaction is the focus of the study on global environmental change. In this paper, it is discussed that the effects of land use change on ocean by influencing the hydrology, nutrient, suspended mass, sediments and biology of river that flow into ocean.The contents and advances of research project—land-ocean interaction study implemented by England and some other countries surrounding North Sea are presented. Land use change is one of the most important causes that result in the change of land-ocean interaction. The objective of study on land-ocean interaction is to predict the trend at the scenario of land use change in the future. So in order to better understand global change, the combining study of land use change in coastal zone and land-ocean interaction should be conducted.

Key words:  Land use change      Land-ocean interaction      Effect      Research advances.     
Received:  28 January 2000      Published:  01 December 2000
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YANG Ping, FU Bo-jie. LAND USE CHANGE AND LAND-OCEAN INTERACTION. Advances in Earth Science, 2000, 15(6): 723-728.

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[1] Rimmelin P. Study of annual and seasonal dissolved inorganic nitrogen inputs into the Arcachon, Atlantic coast, Estuarine[J]. Coastal and Shelf Science, 1998, 47:649~659.
[2] Imbe M, Ohta T, Takano N. Quantitative assessment of improvements in hydrological water cycle in urbanized river basin[J]. Water Science and Technology, 1997, 36(8~9):219~222.
[3] Wilber D H, Tighe R E, Oneil L J. Associations between changes in agriculture and hydrology in the Cache river basin,Ankansas,USA[J]. Wetlands, 1996,16(3):366~378.
[4] Miller M W, Nudds T D. Prairie Landscape change and flooding in the Mississippi river valley[J]. Conservation biology,1996, 10(3): 847~853.
[5] Jens Kristian Lorup. Assessing the effect of land use change on catchment runoff by combined use of statistical tests and hydrological modeling: Case studies from Zimbabwe [J].Journal of Hydrology,1998, 205 : 147~163.
[6] Pereira HC. Land-use and Water Resources[M]. Cambridge:Cambridge University Press, 1973.
[7] Wollast R. Interactions of carbon and nitrogen cycles in the coastal zone[A]. Interaction of C, N, P and S Biogeochemical Cycles and Global Changes[C]. NATO ASI Series,1993.
[8] Miller C V, Denis J M, Ator S W. Nutrients in streams during baseflow in selected environmental settings of the Potomac river basin [J]. Journal of the American Water Resources Association, 1997, 33(6):1 155~1 171.
[9] Cronan C S, Piampiano J T, Patterson H H,et al. Influence of land use and hydrology on exports of carbon and nitrogen in a Maine river basin[J]. Journal of Environmental Quality,1999, 28: 953~961.
[10] Harding J S, Winterbourn M J. Effects of contrasting land use on physico-chemical conditions and benthic assemblages of streams in a Canterbury(south Island, new zealand) river system[J]. New Zealand Journal of Marine & Freshwater research, 1995, 29(4):479~492.
[11] Nell Michael. Nitrate concentrations in river waters in the south-east of Ireland and their relationship with agricultural practice[J]. Water Research, 1989, 23(11):1 339~1 355.
[12] Daniel L Tufford. In-stream nonpoint source nutrient prediction with land-use proximity and seasonality[J]. Journal of Environmental Quality, 1998, 27:100~111.
[13] Mander Ulo. Impact of climatic fluctuations and land use change on runoff and nutrient losses in rural landscapes[J].Landscape and Urban Plann41:229~238.
[14] Turner R E, Rabalais N N. Changes in Mississippi River water quality this century[J]. BioScience, 1991, 41:140~147.
[15] Cathryn K Field. Estimating the effects of changing land use patterns on Connecticut lakes[J]. Journal of Environmental Quality, 1996, 25:325~333.
[16] Moreau S, Bertru G, Buson C. Seasonal and spatial trends of nitrogen and phosphorus loads to the upper catchment of the river Vilaine (Brittany): relationships with land use [J].Hydrobiologiam, 1998, 374:247~258.
[17] Rozanov B G, Targulian V, Orlov D S. Soils[A]. In Turner B L II ,et aleds. The Earth as Transformed by Human Action[C]. Cambridge: Cambridge University Press, 1990.203~214.
[18] Milliman J D, Meade R H. World-wide delivery of river sediment to the oceans[J]. The Journal of Geology, 1983,91:1~21.
[19] Walling D E. Suspended sediment production and building activity in a small British basin[A]. Effects of Man on the Interface[C]. I A H S Publ,1974,113:137~144.
[20] Milliman J D. Geomorphic/tectonic control of sediment discharge to the ocean: the importance of small mountainous rivers[J]. Journal of Geology, 1992, 100:525~544.
[21] He Chansheng. Integration of geographic information systems and a computer model to evaluate impacts of agricultural runoff on water quality[J]. Water Resources Bulletin, 1993,29(6):891~900.
[22] Slaymaker Olav. Land use effects on sediment yield and quality [A]. In: Peter G Sly ed. Sediment/Freshwater Interaction[C]. 1982.93~109.
[23] Rothrock J A. Land use and aquatic biointegrity in the blackfoot river watershed, Montana [J]. Journal of the American Water Resources Association, 1998, 34(3):565~581.
[24] Jahiruddin M, Smart R, Wade A J. Factors regulating the distribution of boron in water in the river dee catchment in northeast scotland[J]. Science of the Total Environment,1998, 210(1~6): 53~62.
[25] Richard H Shertzer. Relationships between land uses and rainwater quality in a southcentral Pennsylvania watershed[J]. Journal of the American Water Resources Association,1998, 34(1): 13~26.
[26] 傅伯杰,马克明,周华峰,等.黄土丘陵区土地利用结构对土壤养分分布的影响[J].科学通报,1998,43(22):2 444~2 447.
[27] 李秀彬.全球环境变化研究的核心领域:土地利用/土地覆被变化的国际研究动向[J].地理学报,1996,51(5):523~557.
[28] 郭旭东,陈利顶,傅伯杰.土地利用/土地覆被变化对区域生态环境的影响[J].环境科学进展,1999,7(6):66~75.
[29] 李明,施永辉.欧洲陆—海相互作用研究(ELOISE)科学计划及研究领域[J].地球科学进展,1996,11(5):475~480.
[30] 李春初,雷亚平.全球变化与我国海岸研究问题[J].地球科学进展,1999,14(2):189~192.
[31] 李凡.海岸带陆海相互作用(LOICZ)研究及我们的策略[J].地球科学进展,1996,11(1):19~23.
[32] 李晓兵.国际土地利用—土地覆盖变化的环境影响研究[J].地球科学进展,1999,14(4):395~400.
[33] Webb B W. Load estimation methodologies for British rivers and their relevance to the LOIS RACS(R) programme[J].The Science of the Total Environment, 1997, 194/195: 379~390.
[34] House W A. Nutrient transport in the Humber rivers[J].The Science of the Total Environment, 1997,194/195: 303~320.
[35] Worrall F. Decomposition of river water nitrate time-series-comparing agricultural and urban signals[J]. The Science of the Total Environment, 1998, 210/211: 153~162.
[36] Juliet L A. Long, Micro-organic compounds associated with sediments in the Humber rivers[J]. The Science of the Total Environment, 1998, 210/211: 229~253.
[37] Jarvie H P. Major ion concentrations and the inorganic carbon chemistry of the Humber rivers[J]. The Science of the Total Environment, 1997, 194/195: 285~302.
[38] Macklin M G. The significance of pollution from historic metal mining in the Pennine orefields on river sediment contaminant fluxes to the North Sea[J]. The Science of the Total Environment, 1997, 194/195: 391~398.
[39] House W A. A mass-balance approach to quantifying the importance of in-stream processes during nutrient transport in a large river catchment[J]. The Science of the Total Environment, 1998, 210/211: 139~152.
[40] Tipping E. Organic carbon in the Humber rivers[J]. The Science of the Total Environment, 1997, 194/195: 345~356.
[41] Smith R L. Deposition of atmospheric pollutants to the LOIS area[J]. The Science of the Total Environment, 1997, 194/195: 71~86.
[42] Whitehead P G. Quality simulation along river systems (QUASAR): model theory and development [ J ]. The Science of the Total Environment, 1997, 194/195: 447~456.
[43] Whitehead P G. A semi-distributed integrated Nitrogen model for multiple source assessment in Catchments (INCA): Part I -model structure and process equations[J].The Science of the Total Environment, 1998, 210/211: 547~558.
[44] Robson A J. Regional water quality of the river Tweed[J].The Science of the Total Environment, 1997, 194/195: 173~192.

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