Changes of urban wetland landscape pattern and impacts of urbanization on wetland in Wuhan City

In this study, remote sensing data of Wuhan City,, Hubei Province, China in 1996-2001 were selected to extract wetland landscape information. Several landscape indices were used to evaluate the changes of landscape pattern within the five years, including patch number, patch density, patch fractal dimension, landscape diversity, dominance, evenness, and fragmentation indexes. Then, transformation probabilities of wetland landscapes into non-wetland landscapes were calculated based on Markov Model, and on these grounds the relationship between changes of wetland landscape pattern and urban construction was analyzed. The results showed that fragmentation degree of all wetland types increased, lake area declined, and dominance of natural wetland decreased. The reasons for these results were mainly because of urban construction. According to the features of abundant wetland in Wuhan City, we suggested that protection of wetland landscape should cooperate with urban construction, which means wetland should become important part of urban landscape.     

基于氢氧稳定同位素的武汉北部新城地表水-地下水转换关系研究

【研究目的】揭示武汉北部新城地表水、地下水的氢氧稳定同位素特征及其相互作用。【研究方法】2019年，采集、测定了降水样7件、河水样6件、水库样14件、民井样98件、泉水样3件和钻孔样11件，并收集到武汉站1986—1998年的监测数据50件，以空间分析和流域分析为基础，氢氧稳定同位素分析为手段。【研究结果】（1）武汉降水氢氧同位素随季节变化，并表现出“降雨效应”明显、“温度效应”不明显的特点；（2）地表水在枯水期受到强烈的蒸散发，表现出一定的“地貌效应”与“干支流效应”的特征；（3）民井、泉和钻孔等地下水均源于大气降水，表现出“含水层埋深效应”与“山区平原效应”的特点；（4）枯水期，界河流域中界河获得了上游水库和地下水的补给，夏家寺水库流域中夏家寺水库得到了地下水补给。【结论】氢氧同位素能显著提高武汉北部新城地表水-地下水相互转换规律的认识。创新点：利用各类水体氢氧同位素组成及空间分布特征，揭示了武汉北部新城降水、地表水和地下水相互转换的规律