机构地区:[1]河南大学地理与环境学院,开封475004 [2]黄河中下游数字地理技术教育部重点实验室,开封475004
出 处:《生态学报》2022年第10期4041-4054,共14页Acta Ecologica Sinica
基 金:国家自然科学基金课题(41701503);中国博士后科学基金(2018M642736)。
摘 要:在气候变化和人类活动的双重作用下,黄河流域生态环境不断发生变化。探讨植被生长动态对于实施生态保护政策至关重要。利用Advanced Very High Resolution Radiometer(AVHRR) Leaf Area Index(LAI)遥感资料,结合气候要素数据,分析1981-2017年黄河流域植被覆盖的时空分布特征,探讨气候要素对其变化的影响及贡献率。研究结果表明:(1)时序上,黄河流域植被覆盖呈显著增长趋势,夏季植被覆盖的增长幅度和年际波动最大,冬季植被覆盖呈缓慢平稳增长,波动最小。(2)空间上,植被覆盖显著提高的区域占整个区域的52.1%,主要分布在中东部平原;显著降低的区域占4%,主要分布在北部和西部高原山地;生态脆弱的区域植被覆盖率大多有不同程度的提高,但生态环境良好的部分区域植被覆盖率降低。(3)时序上,黄河流域植被覆盖与气温具有显著的正相关关系。春夏冬三季的植被覆盖与气温呈显著正相关,与降水呈不显著关系;秋季的植被覆盖与气温和降水量均呈显著正相关;春秋冬三季的植被覆盖与太阳辐射呈不显著负相关,夏季的植被覆盖与太阳辐射呈不显著正相关。春夏秋冬四季的气温对植被覆盖的贡献率均大于降水和太阳辐射。春季和秋季气温对植被覆盖的贡献率大于夏季和冬季气温;秋季降水对植被覆盖的贡献率较春夏冬降水贡献率大;春季太阳辐射对植被覆盖贡献率在四季中最高。(4)空间上,黄河流域77.0%区域的植被覆盖变化滞后气温7个月,且与气温呈负相关关系;流域内96.1%区域的植被覆盖变化与降水呈正相关关系,且植被覆盖变化与降水同期或滞后1个月;流域内超过72.2%区域的植被覆盖与太阳辐射呈负相关关系,且植被覆盖变化滞后太阳辐射8个月。Under the dual effects of climate change and human activities, the ecological environment of the Yellow River Basin is constantly changing. It is very important to explore the dynamics of vegetation growth for the implementation of ecological protection policy. Based on Advanced Very High Resolution Radiometer(AVHRR) Leaf Area Index(LAI) remote sensing data and climate factors data, we analyzed the spatio-temporal characteristics of vegetation cover in the Yellow River Basin from 1981 to 2017, and discussed the impacts and contribution rate of climate change on vegetation. The results showed that:(1) in the study period, the vegetation cover in the Yellow River Basin showed a significant growth trend. The maximum growth range and annual fluctuation of vegetation cover occurred in summer, the smallest fluctuation, slow and steady growth occurred in winter.(2) Spatially, the areas with significantly improved vegetation cover accounted for 52.1% of the whole region, mainly distributed in the central and eastern plain. The decreased area accounted for 4%, mainly distributed in the northern and western plateau mountains. Most of the ecologically fragile regions had different degrees of vegetation restoration, but vegetation cover reduced in some regions with good ecological environment.(3) There was a significantly positive correlation between vegetation cover and air temperature in the Yellow River Basin. The vegetation covers in spring, summer and winter had a significantly positive correlation with their air temperature, but had no obvious correlation with precipitation. While the vegetation cover in autumn had a significantly positive correlation with air temperature and precipitation. There was no significantly negative correlation between vegetation covers and solar radiation in spring, autumn and winter, but no significantly positive correlation in summer. The contribution rate of air temperature to vegetation covers in spring, summer, autumn and winter was greater than that of precipitation and solar radiation
正在载入数据...
正在载入数据...
正在载入数据...
正在载入数据...
正在载入数据...
正在载入数据...
正在载入数据...
