基于RS和GIS的大渡河上游植被覆盖时空变化

doi:10.11707/j.1001-7488.20150706

摘要/Abstract

摘要： [目的] 在RS和GIS技术的支持下,对大渡河上游丹巴段1989—2012年的植被覆盖状况及时空变化特征进行分析研究,为区域生态环境保护和建设提供理论依据。[方法] 以1989, 2000和2012年3期TM遥感影像和ASTER GDEM数字高程模型为数据源,首先运用RS软件计算提取研究区3个时期基于TM影像的归一化植被指数的植被覆盖度图和基于ASTER GDEM数字高程模型的海拔、坡度、坡向地形因子图; 然后在ArcGIS软件平台下,对植被覆盖度图及3种地形因子图进行等级划分; 最后将对应年份的植被覆盖度等级图分别与海拔等级图、坡度等级图、坡向等级图进行叠加,统计分析获得3个时期的植被覆盖状况及时空变化特征。[结果] 1989,2000和2012年3个年份的植被覆盖度f_c≥0.5的区域面积比例均达研究区总面积的58%以上; 1989—2012年间Ⅰ级(f_c≥0.7)和Ⅱ级(0.5≤f_c<0.7)植被覆盖度区域面积分别减少2.98%和4.72%,而Ⅲ级(0.3≤f_c<0.5)、Ⅳ级(0.15≤f_c<0.3)和V级(f_c<0.15)植被覆盖度区域面积分别增加10.88%,1.22%和9.39%; 不同时段研究区植被覆盖度呈现出不同的变化特征,其中, 1989—2000年,由于人为砍伐和过度放牧等原因,植被覆盖度整体呈下降趋势, 2000—2012年,由于退耕还林和天然林保护工程,植被覆盖度整体呈上升趋势。不同海拔、坡度和坡向地带植被覆盖具有不同的分布和变化特征,植被覆盖度较高的区域主要分布在海拔2 500~4 500 m以及坡度30°~45°的地带,而海拔<2 500 m、>4 500 m和坡度<30°的地带,植被覆盖度相对较低; 不同坡向植被覆盖呈现出半阳坡>阳坡>半阴坡>阴坡的特征。植被覆盖变化较为明显的区域集中海拔<2 500 m和坡度<30°的地带,海拔>4 500 m和坡度>45°的地带受人为活动影响小,植被覆盖变化不明显。[结论] 1989—2012年间研究区植被覆盖状况较好,但总体呈现降低的变化特征; 研究区植被覆盖状况受海拔、坡度和坡向等地形因子和人类活动等2方面因素影响较大。因此,森林资源的保护一方面要加强退耕还林、天然林保护等措施的力度,另一方面也应利用有利的地形来提高和改善植被覆盖状况,以避免研究区植被覆盖度逐渐降低。

关键词: RS, GIS, 植被覆盖, 时空变化

Abstract: [Objective] Based on three periods of remote sensing images of TM (1989, 2000 and 2012) and digital elevation model of ASTER GDEM, the temporal and spatial variation of vegetation coverage in recent 23 years in upper Dadu River in Sichuan province were analyzed by RS and GIS technology in this paper. [Method] Firstly, the vegetation coverage based on normalized difference vegetation index (NDVI) and the map of terrain factors including altitude, slope and slope aspect based on ASTER GDEM digital elevation were extracted through RS software in three periods. Then, the vegetation coverage map, altitude map, slope gradient map and slope aspect map were ranked through ArcGIS software. Finally, the vegetation coverage level map was analyzed together with the altitude level map, slope gradient map and slope aspect level map in each year, and obtained the vegetation coverage condition and temporal variation characteristics in three periods by statistical analysis in the study area.[Result] The results showed that the vegetation coverage f_c≥0.5 in the study area accounted for more than 58% of the whole study area. The vegetation coverage area of grade Ⅰ (f_c≥0.7) and Ⅱ (0.5≤f_c<0.7) decreased by 2.98% and 4.72% respectively, while the vegetation coverage area of grade Ⅲ (0.3≤f_c<0.5), Ⅳ(0.15≤f_c<0.3) and Ⅴ (f_c<0.15) increased by 10.88%,1.22% and 9.39% respectively. The vegetation coverage in the study area exhibited variation characteristics in different periods. During 1989—2000, the vegetation coverage decreased due to anthropogenic deforestation and overgrazing by human, and during 2000—2012, the vegetation coverage increased due to project and policies about Returning Cropland to Forestland and Natural Forest Protection. The distribution and variation of vegetation coverage were different according to elevations, slope gradient and slope aspect. The areas with high vegetation coverage were mainly distributed in the altitude of 2 500-4 500 m and the slope gradient of 30°-45°. The vegetation coverage was relatively low in the areas of altitude <2 500 m or > 4 500 m and slope gradient <30°. The vegetation coverage in different slope aspect showed as semi-sunny>sunny>semi-shady>shady. The significant variation of vegetation coverage mainly concentrated in the areas of altitude <2 500 m and slope gradient <30°. And no obvious changes were found for vegetation coverage in the areas of altitude > 4 500 m and slope gradient > 45°, where relatively less the intervention of human activities. [Conclusion] The vegetation coverage conditions in the study area were good in 1989—2012, but exhibited a decreasing trend in recent 23 years. Furthermore, the vegetation coverage in the study area was mainly affected by human activities and altitude, slope gradient and slope aspect, indicating that the protection of forest resources should not only strengthen the measures such as returning cropland to forestland and natural forest protection, but also use some advantage terrain to improve the vegetation coverage, so as to avoid the vegetation coverage gradually decreased in the study area.

Key words: RS, GIS, vegetation cover, temporal and spatial variation

中图分类号:

S157

胡玉福, 邓良基, 刘宇, 蒋双龙, 李翔, 陈波, 王钰婷. 基于RS和GIS的大渡河上游植被覆盖时空变化[J]. 林业科学, 2015, 51(7): 49-59.

Hu Yufu, Deng Liangji, Liu Yu, Jiang Shuanglong, Li Xiang, Chen Bo, Wang Yuting. Temporal and Spatial Variation of the Vegetation Coverage in Upper Dadu River Based on RS and GIS[J]. Scientia Silvae Sinicae, 2015, 51(7): 49-59.

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