基于热红外光谱的干旱区土壤盐分监测研究

土壤盐渍化是新疆最常见的土地退化过程,已经严重威胁到了当地的农业生产、生态稳定和经济发展。通过对渭库绿洲土壤含盐量和土壤热红外光谱分析,探讨了土壤含盐量与热红外发射率之间的定量关系。结果表明：（1）盐渍化土壤的发射率随着含盐量的变化而发生变化,当土壤盐分增加时,发射率也随之增大。（2）土壤含盐量与热红外发射率光谱数据相关性在8.5～9.5 μm波段范围内表现尤为显著,相关系数超过0.8,最高为0.90,对应波段范围9.259～9.271 μm。（3）运用回归模型一阶导数变换形式下建模效果和预测精度都是最优的,R²达到了0.899,RMSE最小为1.734。热红外光谱技术可以反演土壤含盐量,为利用热红外遥感识别土壤盐分信息提供技术支撑。     

露天煤矿周围的四种植被重金属富集和转移特征分析

采用野外调查和室内化学分析相结合的方法,对新疆准东露天煤矿周围常见的假木贼（Anabasis aphylla）、梭梭（Haloxylon ammodendron）、琵琶柴（Reaumuria songoonica）、蛇麻黄（Ephedradistachya）等四种植物对重金属的吸收、富集能力和来源进行了分析。结果表明：植物体内重金属含量大小来看,Zn、Cu、Cr含量较大,Pb、As和Hg含量较少。假木贼根部的Cr含量以及四种植被体内Hg含量均超过了植被生长的正常范围。从植物与相应土壤中的重金属相关性来看,假木贼,琵琶柴体内Zn、Cu元素,琵琶柴体内Zn、Hg、As元素,梭梭体内的Zn、Cu、As元素与相应土壤中的重金属含量相关性较好,植物体内的重金属主要来自于土壤,交通运输,大气降尘等多种来源。植物对重金属的富集和转移能力表明,假木贼（2.89）,琵琶柴（1.14）,梭梭（1.72）对Hg有一定的富集能力,其富集能力大小顺序为假木贼>梭梭>琵琶柴,它们属于潜在的Hg富集植物。蛇麻黄对Cu具有较强富集能力。假木贼,琵琶柴和梭梭对Zn、Cr和Pb具有较好的转移能力。这三种植物对重金属均有一定的耐性,可作为矿区土壤植物修复的优选物种。     

Spatio-temporal Variability of Soil Water at Three Seasonal Floodplain Sites: A Case Study in Tarim Basin,Northwest China

The floodplain -egetation of the Tarim River in Northwest China is strongly influenced by irrigated agriculture. The abstrac- tion of river water disturbs; the natural dynamics of the floodplain ecosystem. The human impact on the hydrological system by bank dams and the irrigation of cotton plantings have caused adverse changes of the Tarim River and its floodplains, so the current stocks of the typical Tugai vegetation show significant signs of degradation. Field studies of soils and statistical analysis of soil moisture data have shown that the vitality of the Tugai vegetation is primarily determined by its position to the riverbank and the groundwater. There exist complex interactions between soil hydrological conditions and the vitality of the vegetation. But the availability of water is not only influenced by the groundwater level and seasonal flood events. The spatial distribution of stocks at different states of vitality seems also to be decisively influenced by physical soil properties. Our results show that the water supply of plant communities is strongly in- fluenced by the soil texture. Spatial differences of soil moisture and corresponding soil water tensions may be the decisive factors for the zonafion of vegetation. Physical soil properties control the water retention and rising of capillary water from deeper soil layers and the phreatic zone and may supply the root systems of the phreatophytic vegetation with water. Keywords： soil moisture;soil texture; soil water tensions; Tarim River; water retention     

新疆2001-2010年农业气候干旱脆弱性分析

选取新疆维吾尔自治区14个地（州）为研究对象,从农业气候干旱的敏感性和恢复力2个角度选取10个指标,对该区2001-2010年的农业气候干旱脆弱性进行评价。通过计算新疆各地（州）农业气候干旱脆弱度并绘制新疆农业气候干旱脆弱性区划图,分析该区农业气候干旱脆弱性的年际变化和地域分布特点及规律,初步探讨了其成因,提出缓解新疆农业气候干旱脆弱性的科学对策。结果表明：新疆各地区农业气候干旱脆弱度在时间尺度存在差异性变化,并存在显著地域性差异,总体呈现出 “东高西低,南高北低”的分布状况,主要原因不仅有地形、水文和气候等自然环境因素的差异,还包括经济产业结构、科学技术研究、灌溉设施、全民意识和政策管理等社会经济因素,可以通过采用先进技术和高效管理措施、根据气候采取种植结构格局和方式、合理开采高效利用水资源、增强全民生态保护意识等措施,缓解干旱影响、降低区域干旱脆弱性。     

Spatiotemporal dynamics of land cover and their impacts on potential dust source regions in the Tarim Basin,NW China

Human-driven dynamics of land cover types in the Tarim Basin are able to affect potential dust source regions and provide particles for dust storms. Analyses about dynamics of potential dust source regions are useful for understanding the effects of human activities on the fragile ecosystem in the extremely arid zone and also provide scientific evidence for the rational land development in the future. This paper therefore selected the Tarim Basin, NW China, as a representative study area to reveal spatiotemporal dynamics of land cover and their impacts on potential dust source regions. The results showed that farmland, desert and forest increased by 28.63, 0.64 and 29.27%, while grassland decreased by 10.29% during 1990–2010. The largest reclamation, grassland loss and desertification were 639.17 × 10³, 2350.42 × 10³ and 1605.86 × 10³ ha during 1995–2000. The relationship between reclamation and grassland loss was a positive correlation, while a highly positive correlation was 0.993 between the desertification and grassland loss at different stages. The most serious dust source region was the desertification during 1990–2010 (1614.58 thousand ha), and the serious region was stable desert (40,631.21 thousand ha). The area of the medium and low dust source region was 499.08 × 10³ and 2667.27 × 10³ ha. Dramatic reclamation resulted in the desertification by destroying natural vegetation and breaking the balance of water allocation in various regions.