黄土塬面保护区潜在蒸发量时空变化及其与气象、环流因子关系分析

黄土塬面是黄土高原地区主要的农业分布区和人口聚居地,地位十分重要。黄土塬面潜在蒸发量（ET₀）的研究对于区域水循环研究、水土流失防治及农业的可持续发展具有重要意义。基于黄土塬面保护区1960—2017年的气象数据,利用Penman-Monteith模型、小波分析、Mann-Kendall非参数检验等方法研究了黄土塬面保护区ET₀的变化规律及其与气象、环流因子间的关系。结果表明：（1）黄土塬面保护区多年平均ET₀为1173.4 mm,总体呈现增长趋势,增长率为21.1 mm/10 a;其生长季平均ET₀值及增长率均高于非生长季平均ET₀。（2）该区多年平均ET₀空间分布特征表现为东部高西部低,西部甘肃塬区多年平均ET₀远低于东部山西塬区。（3）过去58年来,区域年均、生长季、非生长季ET₀均呈现出增长趋势,但空间差异明显;研究区年均ET₀存在着10年、30年和50年的震荡周期,其中以30年周期为主周期。（4）气温是控制区域ET₀变化的最重要的气象因子,但气温对ET₀的影响具有明显的空间差异,在整个研究区内最低气温影响最显著;而甘肃塬区和陕西塬区的ET₀变化主要受平均气温变化的控制,在山西塬区最高气温的变化是区域ET₀变化的主要控制因子。（5）遥相关分析结果显示太平洋/北美指数（PNA）与北大西洋年代尺度振荡（AMO）对该区域ET₀变化有一定影响,西太平洋海温指数（WPI）的变化影响区域非生长季ET₀变化。     

黄土洞穴的环境灾害效应

黄土洞穴本身是一种地质灾害,对黄土地区的运输、管道、拦蓄水工程、厂房、民居等各类工业与民用建筑构成不同程度威胁;还可促发其它地质灾害的发生和发展,恶化黄土高原地区的生态环境和地质环境。文章根据野外和室内研究所积累的资料,对黄土洞穴的地质灾害效应以及环境变化效应进行了初步研究。其研究成果不仅为黄土洞穴工程灾害的防治提供科学依据,而且还可进一步了解黄土地区水土流失的发育规律及其第四纪以来的地质环境变化状况。     

The effects of land use and its patterns on soil properties in a small catchment of the Loess Plateau

Due to relatively strong human activities in the hilly area of Loess Plateau,the natural vegetation has been destroyed,and landscape pattern based on agricultural land matrix was land use mosaic composing of shrub land,grassland,woolland and orchard.This pattern has an important effect on soil moisture and soil nutrients.The Danangou catchment,a typical small catchment,was selected to study the effects of land use and its patterns on soil moisture and nutrients in this paper.The results are as follows:The comparisons of soil moisture among seven land uses for wet year and dry year were performed:(1)the average of soil moisture content for whole catchment was 12.11% in wet year,while it was 9.37% in dry year;(2)soil moisture among seven land uses was significantly different in dry year,but not in wet year;(3) form wet year to dry year,the profile type of soil moisture changed from decreasing type to fluctuation-type and from fluctuant type to increasing type;(4)the increasing trend in soil moisture from the top to foot of hillslope occurred in simple land use along slope,while complicated distribution of soil moisture was observed in multiple land uses along slope.The relationships between soil nutrients and land uses and landscape positions were analysed:(1)five nutrient contents of soil organic matter(SOM),total N(TN),available N(AN),total P(TP) and available P(AP) in hilly area were lower than that in other areas.SOM content was less than 1%,TN content less than 0.07%,and TP fallow land and cropland,and higher level in soil fertility was found in crop-fruit intercropping land among croplands;(3)soil nutrient distribution and responses to landscape positions were variable depending on slope and the location of land use types.     

典型黄土塬区不同植物措施水土保持效应分析

基于黄土高原典型黄土塬区2014-2016年的自然降雨数据及5种植被措施（乔木、灌木、撂荒、人工种草、耕地）下的坡面产流、产沙情况的观测数据,系统分析了不同植被覆盖措施下的黄土坡地水土流失对不同类型侵蚀性降雨的响应机制,结果表明：（1）降水集中于4-10月份,其中引发水土流失的侵蚀性降雨集中于7月、8月。（2）根据最大30分钟降雨强度I₃₀及降雨总量可将侵蚀性降雨分为5种类型,其中小雨量、小雨强类型的降雨是当地发生频率最多的侵蚀性降雨类型;降雨强度最大的Ⅴ雨型降雨侵蚀力最大,降雨量最大的Ⅰ雨型降雨侵蚀力次之,而Ⅱ雨型降雨侵蚀力最低;Ⅴ雨型在观测期内产流产沙量最大。（3）5种植被措施在不同降雨类型下均有明显的水土保持效应,在不同类型降雨下不同植物措施减沙率和减流率变化规律不同。研究结果对于黄土高原地区水土保持及资源可持续利用具有重要的指导意义。     

关于黄土高原空间范围的讨论

长期以来,黄土高原的空间范围缺乏明确的定论。争论的焦点反映出不同学者对自然地理现象空间分布过渡性的认识和处理的差异。本文从黄土、黄土分布区、黄土高原及其毗邻的黄土分布区、黄土高原、典型黄土地貌区等几个不同层次的概念出发,探讨了划分黄土高原的客观标准,并根据野外考察和航卫片判读确定了黄土高原的空间范围。     

植被净初级生产力对气候变化的响应研究——以黄土高原燕沟流域为例

Vegetation net primary productivity (NPP) is a sensitive indicator to characterize the response of terrestrial ecosystems to the climate change. Projections of the NPP changes of the Loess Plateau under future climate scenarios have great significances in revealing the interactions among terrestrial ecosystems and climatic systems, as well as instructing future vegetation construction of this region. Here, we carried out a case study on the Yangou watershed in the Loess Plateau. Using the vegetation-producing process model (VPP) established for such small watersheds, we simulated the NPP of the Yangou watershed under different scenarios of climate changes. The results showed that the NPP significantly increased with the precipitation increasing and evidently decreased with the temperature increasing where the climate change occurred in the whole year or in the summer half year. However, where the climate change occurred in the winter half year, the increased precipitation had little effect on the NPP, and the increased temperature significantly reduced the NPP. There were clear differences among the response sensitivities of different vegetation types with trees and shrubs were more sensitive to the changes in temperature and precipitation than crops and grasses. Currently, the most favourable climate change scenario to the NPP in the Yangou watershed was T0P15 under which the precipitation increased by 15% and the temperature did not changed, in the whole year; in the meantime, the most unfavourable climate change scenarios was T2P-15 under which the precipitation declined by 15% and the temperature increased by 2℃, in the whole year.     

黄土高原近30年植被变化特征及其气候驱动

The use of Normalized difference vegetation index (NDVI) data acquired with multiple satellite sensors has become a necessity in research fields such as agriculture, Land-Use and Land-Cover Change (LUCC) and changes in the natural environment. In this paper, vegetation 10-day composite (VGT-S10) NDVI data with a 1 km×1 km resolution, covering the period from April 1982 to December 2011 and Advanced Very High Resolution Radiometer (AVHRR) Global Inventory Modelling and Mapping Studies (GIMMS) NDVI data with a 8 km×8 km resolution, covering the period from April 1998 to December 2006 were used. The VGT NDVI covering the period from 2007 to 2011 was converted to the GIMMS NDVI for the same period. The vegetation trend during 1982 to 2011 was calculated using the extended NDVI data set. Climate change has a large impact on the vegetation dynamics. A series of statistical analyses were employed to demonstrate the relationship between NDVI and meteorological data during 1982 to 2005. A multiple correlation analysis was applied to validate the association between the two climatic factors and monthly maximum NDVI (MNDVI). The partial correlation coefficient of MNDVI and each climate factor were calculated respectively to describe the singular influence of each meteorological variable. The results indicated that temperature made a significant positive influence on vegetation growth in the whole Loess Plateau. Precipitation is the most important climatic factor that closely correlates with MNDVI, particularly in arid and semi-arid environments. However, in some wet regions, precipitation is not a limiting factor on vegetation growth.     

Carbon Sequestration Function of Check-Dams: A Case Study of the Loess Plateau in China

Check-dams are the most common structures for controlling soil erosion in the Loess Plateau. However, the effect of check-dams on carbon sequestration, along with sediment transport and deposition, has not been assessed over large areas. In this study, we evaluated the carbon sequestration function of check-dams in the Loess Plateau. The results indicate that there were approximately 11 000 check-dams distributed in the Loess Plateau, with an estimate of the amount of sediment of 21 × 10⁹ m³ and a soil organic carbon storage amount of 0.945 Pg. Our study reveals that check-dams in the Loess Plateau not only conserve soil and water but also sequester carbon.     

黄土滑坡稳定性评价的反演分析

本文根据黄土滑坡的变形监测结果，同时考虑了边坡的初期应变分布状况，通过有限元反分析法，反推出边坡地基的力学参数，为黄土滑坡的稳定性评价和预报提供了可靠的依据。     

黄土高原大气降水δ18O的空间分布

大气降水δ¹⁸O值的空间分布可以为理解现代大气中的水分输送提供空间信息,也可以为解释古气候代用指标的环境意义提供基础。本文整理了黄土高原44个站点的实测降水δ¹⁸O数据,基于纬度和海拔构建回归模型并得到了黄土高原降水δ¹⁸O的同位素景观图谱,结合实测资料和图谱结果分析了降水δ¹⁸O的年内变化和空间分布特征,并评价了两种全球降水同位素景观图谱产品的适用性,得出以下结论：（1）黄土高原降水δ¹⁸具有明显的年内变化特征,春夏季相对富集,秋冬季较为贫化。（2）黄土高原降水δ¹⁸O高值区多出现在南部的渭河谷地一带,低值区则主要出现在西部高原山地和北部边缘。（3）黄土高原北部与西部降水δ¹⁸温度效应更为明显,向南和向东延伸,温度效应逐渐弱化。（4）两种全球降水同位素景观图谱产品对δ¹⁸值的最佳模拟结果均出现在夏季,冬季模拟较差。