目前水产养殖面临用海冲突、单位面积和人均生产率偏低、养殖业的生态和经济成本较高等问题。为充分利用海区的自然生产力,提高养殖效率和效益,需要对海区进行适宜性评价,选择最适宜的水域进行养殖。以桑沟湾及周围海域主要的养殖品种海...目前水产养殖面临用海冲突、单位面积和人均生产率偏低、养殖业的生态和经济成本较高等问题。为充分利用海区的自然生产力,提高养殖效率和效益,需要对海区进行适宜性评价,选择最适宜的水域进行养殖。以桑沟湾及周围海域主要的养殖品种海带(Saccharina japonica)作为评价对象,选取光照、温度、流速、无机氮、盐度、深度作为适宜性评价指标,利用遥感技术确定海区养殖布局,通过野外调查和数据模拟获取养殖海区环境参数数据,根据动态能量学(Dynamic energy budget,DEB)模型——STELLA模型敏感性分析结果,并结合层次分析法计算评价指标权重,海带生长相关环境因子的强制函数拟合得到单因子评分曲线进行评分。最后,采用线性加权叠加分析方法得到海带养殖适宜性评价结果。适宜性评价过程以地理信息系统(Geographical information systems,GIS)作为技术支持,利用GIS空间插值功能生成光照、温度、流速、无机氮、盐度、深度专题图层,采用栅格计算功能对各专题图层进行叠加,得到综合多因素的海带养殖适宜性评分和适宜性等级。评价结果显示,在不考虑用海冲突的情况下,桑沟湾及周围海域海带养殖适宜性分数分布在0~6.7范围内,分值主要集中在4~6分,属于中等适宜,占研究区总面积的67%,最适宜和不适宜分别占研究区总面积的23%和10%,无一般适宜区。评分较高的区域主要分布在北部爱莲湾和楮岛东部海域周围,适宜性评分较低的区域主要位于近岸水深较浅的海域。根据适宜性评价结果可进行水域空间规划和安排养殖生产计划,为管理部门开展养殖分区和海洋功能区划提供参考。展开更多
Based on multi-temporal topographic maps, remote sensing images and field surveys covering the entire coastal zone of China's Mainland, the coastlines of six periods since the early 1940s were extracted. Coastline...Based on multi-temporal topographic maps, remote sensing images and field surveys covering the entire coastal zone of China's Mainland, the coastlines of six periods since the early 1940s were extracted. Coastline changes over the last 70 years were then analyzed in terms of coastline structure, coastline fractals, coastline change rates, land-sea patterns, and bay areas. The results showed that mainland coastline structure changed dramatically, and due to the significant coastline artificialization mainly driven by sea reclamation and coastal engineering, the remaining natural coastline merely accounts for less than one third at present. Coastline fractal dimension represented an overall spatial pattern of "north 〈 entirety 〈 south"; however, the discrepancy between the north and south coast was apparently narrowed due to dramatic coastline artificialization of northern China which in turn altered the whole pattern. Patterns and processes of land-sea interchange along the mainland coast were complex and varied spatially and temporally, with over 68% advancing toward sea and 22% retreating toward land. The net growth of land area was nearly 14.2 ×10^3 km2 with an average growth rate of 202.82 km2 al; and coast retreat was characterized by area decrease of 93 bays with a magnitude of 10.1 ×10^3 km2 and an average shrinking rate up to 18.19% or an average shrinking speed up to 144.20 km2 a-1, among which the total area of Bohai shrunk by 7.06%, with an average annual loss amounting to 82 km2. The dramatic coastline changes along China's Mainland have brought about kinds of challenges to the coastal environment, therefore the integrated management, effective environment protection and sustainable utilization of coastlines is urgent.展开更多
文摘目前水产养殖面临用海冲突、单位面积和人均生产率偏低、养殖业的生态和经济成本较高等问题。为充分利用海区的自然生产力,提高养殖效率和效益,需要对海区进行适宜性评价,选择最适宜的水域进行养殖。以桑沟湾及周围海域主要的养殖品种海带(Saccharina japonica)作为评价对象,选取光照、温度、流速、无机氮、盐度、深度作为适宜性评价指标,利用遥感技术确定海区养殖布局,通过野外调查和数据模拟获取养殖海区环境参数数据,根据动态能量学(Dynamic energy budget,DEB)模型——STELLA模型敏感性分析结果,并结合层次分析法计算评价指标权重,海带生长相关环境因子的强制函数拟合得到单因子评分曲线进行评分。最后,采用线性加权叠加分析方法得到海带养殖适宜性评价结果。适宜性评价过程以地理信息系统(Geographical information systems,GIS)作为技术支持,利用GIS空间插值功能生成光照、温度、流速、无机氮、盐度、深度专题图层,采用栅格计算功能对各专题图层进行叠加,得到综合多因素的海带养殖适宜性评分和适宜性等级。评价结果显示,在不考虑用海冲突的情况下,桑沟湾及周围海域海带养殖适宜性分数分布在0~6.7范围内,分值主要集中在4~6分,属于中等适宜,占研究区总面积的67%,最适宜和不适宜分别占研究区总面积的23%和10%,无一般适宜区。评分较高的区域主要分布在北部爱莲湾和楮岛东部海域周围,适宜性评分较低的区域主要位于近岸水深较浅的海域。根据适宜性评价结果可进行水域空间规划和安排养殖生产计划,为管理部门开展养殖分区和海洋功能区划提供参考。
基金supported by the Strategic Priority Research Program of the Chinese Academy of Sciences (Grant No. XDA05130703)the National Natural Science Foundation of China (Grant No. 31461143032)the Key Research Program of the Chinese Academy of Sciences (Grant No. KZZD-EW-14)
文摘Based on multi-temporal topographic maps, remote sensing images and field surveys covering the entire coastal zone of China's Mainland, the coastlines of six periods since the early 1940s were extracted. Coastline changes over the last 70 years were then analyzed in terms of coastline structure, coastline fractals, coastline change rates, land-sea patterns, and bay areas. The results showed that mainland coastline structure changed dramatically, and due to the significant coastline artificialization mainly driven by sea reclamation and coastal engineering, the remaining natural coastline merely accounts for less than one third at present. Coastline fractal dimension represented an overall spatial pattern of "north 〈 entirety 〈 south"; however, the discrepancy between the north and south coast was apparently narrowed due to dramatic coastline artificialization of northern China which in turn altered the whole pattern. Patterns and processes of land-sea interchange along the mainland coast were complex and varied spatially and temporally, with over 68% advancing toward sea and 22% retreating toward land. The net growth of land area was nearly 14.2 ×10^3 km2 with an average growth rate of 202.82 km2 al; and coast retreat was characterized by area decrease of 93 bays with a magnitude of 10.1 ×10^3 km2 and an average shrinking rate up to 18.19% or an average shrinking speed up to 144.20 km2 a-1, among which the total area of Bohai shrunk by 7.06%, with an average annual loss amounting to 82 km2. The dramatic coastline changes along China's Mainland have brought about kinds of challenges to the coastal environment, therefore the integrated management, effective environment protection and sustainable utilization of coastlines is urgent.
