基于数值模拟仿真技术的水生态景观规划设计探索
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摘要
近年,水生态景观的建设性破坏现象与问题层出不穷。如何协调水生态景观复杂系统中并存的水利安全、生态安全和景观需求引发了业界的广泛思考。从水环境特点及其评价因子入手,提出基于数值模拟仿真技术的水生态景观规划设计方法。该方法能够借助计算机模拟技术建立起水景观物理形态与其内在生态特征的动态关系,并通过设计—分析—评价—再设计的循环设计路径,实现多方案比选,提高水生态景观规划设计的科学性和合理性,并进一步促进其多目标融合。结合2个实践案例,对基于数值模拟仿真技术的水生态景观规划设计原理、流程和工具予以阐释,为水生态景观规划设计提供了新思路。
In recent years, constructive destruction of water ecological landscape has emerged in succession.How to coordinate water conservancy safety, ecological safety and landscape demands to co-exist in a complex water ecological landscape system has aroused widespread thinking in the industry. Starting with the characteristics of water environment and its evaluation factors, this paper proposes a water ecological landscape planning and design method based on the numerical simulation technology. This method can achieve multischeme comparison and selection, improve the scientific nature and rationality of water ecological landscape planning and design, and further promote the multi-objective integration through establishing the dynamic relationship between the water landscape physical form and its intrinsic ecological characteristics with the computer simulation technology, and through the design-analysis-evaluation-re-design cycle design path. With the two practical cases, this paper explains the principle, process and tools of water ecological landscape planning and design that is based on the numerical simulation technology, providing a new idea for water ecological landscape palnning and design.
In recent years, constructive destruction of water ecological landscape has emerged in succession.How to coordinate water conservancy safety, ecological safety and landscape demands to co-exist in a complex water ecological landscape system has aroused widespread thinking in the industry. Starting with the characteristics of water environment and its evaluation factors, this paper proposes a water ecological landscape planning and design method based on the numerical simulation technology. This method can achieve multischeme comparison and selection, improve the scientific nature and rationality of water ecological landscape planning and design, and further promote the multi-objective integration through establishing the dynamic relationship between the water landscape physical form and its intrinsic ecological characteristics with the computer simulation technology, and through the design-analysis-evaluation-re-design cycle design path. With the two practical cases, this paper explains the principle, process and tools of water ecological landscape planning and design that is based on the numerical simulation technology, providing a new idea for water ecological landscape palnning and design.
引文
[1]WAGNER I,MARSALEK J,BREIL P.城市水生态系统可持续管理:科学·政策·实践[M].孟令钦,译.北京:中国水利水电出版社,2014.
[2]RANKIN E T,OHIO E.The qualitative habitat evaluation index[QHEI]:Rationale,methods,and application[J].Columbus:State of Ohio Environmental Protection Agency,1989:58-60.
[3]LAPINSKA M.Streams and rivers:Defining their Quality and Absorbing Capacity.Management of streams and rivers:how to enhance absorbing capacity against human impacts[R].UNESCO IHP,UNEP-IETC,2004:75-169.
[4]ROESNER L A,BLEDSOE B P,ROHRER C A.Physical effects of wet weather discharges on aquatic habitats-present knowledge and research needs[C].Copenhagen:Proc.10th Int.Conf.on urban Drainage(CD-ROM),2005:43-96.
[5]POFF N L,ALLAN J D,BAIN M B,et al.The natural flow regime:A paradigm for river conservation and restoration[J].Bioscience 1997,47(11):769.
[6]李晓宇,刘兴土,李秀军,等.不同干湿交替频率对芦苇生长和生理的影响[J].草业学报,2015,24(3):99-107.
[7]赵永全,何彤慧,夏贵菊,等.不同控水条件下芦苇生长与光合特征研究[J].西北林学院学报,2015,30(1):69-74.
[8]FRANCE R L.Wetland Design:Principles and Practices for Landscape Architects and Land-use Planners[M].New York City:W.W.Norton&Company,2012.
[9]罗祖奎,刘伦沛,李东平,等.上海大莲湖春季鲫鱼生境选择[J].宁夏大学学报(自然科学版),2013(1):23-26.
[10]刘恩生,刘正文,鲍传和.太湖鲫鱼数量变化的规律及与环境间关系的分析[J].湖泊科学,2007(3):345-350.
[11]WR O.Water Quality Indices:A Survey of Indices Used in the United State:EPA-600/4-78-005[S].Washington,DC:US Environmental Protection Agency,1978:128.
(1)图1~7均为作者自绘。
(2)表格数据为作者编写。
[2]RANKIN E T,OHIO E.The qualitative habitat evaluation index[QHEI]:Rationale,methods,and application[J].Columbus:State of Ohio Environmental Protection Agency,1989:58-60.
[3]LAPINSKA M.Streams and rivers:Defining their Quality and Absorbing Capacity.Management of streams and rivers:how to enhance absorbing capacity against human impacts[R].UNESCO IHP,UNEP-IETC,2004:75-169.
[4]ROESNER L A,BLEDSOE B P,ROHRER C A.Physical effects of wet weather discharges on aquatic habitats-present knowledge and research needs[C].Copenhagen:Proc.10th Int.Conf.on urban Drainage(CD-ROM),2005:43-96.
[5]POFF N L,ALLAN J D,BAIN M B,et al.The natural flow regime:A paradigm for river conservation and restoration[J].Bioscience 1997,47(11):769.
[6]李晓宇,刘兴土,李秀军,等.不同干湿交替频率对芦苇生长和生理的影响[J].草业学报,2015,24(3):99-107.
[7]赵永全,何彤慧,夏贵菊,等.不同控水条件下芦苇生长与光合特征研究[J].西北林学院学报,2015,30(1):69-74.
[8]FRANCE R L.Wetland Design:Principles and Practices for Landscape Architects and Land-use Planners[M].New York City:W.W.Norton&Company,2012.
[9]罗祖奎,刘伦沛,李东平,等.上海大莲湖春季鲫鱼生境选择[J].宁夏大学学报(自然科学版),2013(1):23-26.
[10]刘恩生,刘正文,鲍传和.太湖鲫鱼数量变化的规律及与环境间关系的分析[J].湖泊科学,2007(3):345-350.
[11]WR O.Water Quality Indices:A Survey of Indices Used in the United State:EPA-600/4-78-005[S].Washington,DC:US Environmental Protection Agency,1978:128.
(1)图1~7均为作者自绘。
(2)表格数据为作者编写。
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