近40年来托木尔峰南部地区气候及水文环境变化特征

西天山托木尔峰南部地区1987年以来出现了气候由暖干向暖湿转变趋势,在温度大幅上升的基础上,降水量和冰川融水量持续增加,相应的水文与生态环境也发生了显著的改善。本文在综合分析区域内水文、气象观测资料的基础上,对托木尔峰南部地区近40年来气温、降水以及径流量变化的基本趋势、不同海拔高度气温、降水变化差异,以及同一流域山区和平原区径流量变化的差异进行了深入分析。研究表明,受水汽输送途径和研究区地形地貌的影响,区域降水主要集中在托木尔峰南部山区;气候转型的原因是和北大西洋向东输送的水汽增加、西风气流加强有关;海拔2000m左右区域1987年以来气候向暖湿转化最为明显;近40年来由于气温升高,导致冰川消融补给河流量增加15%,但由于人类活动和粗放农业的发展,区域耗水量不断增加,导致塔里木河径流量不断减少,中下游生态环境急剧恶化。     

以树木年轮宽度资料重建湟水河过去248年来6-7月份河流径流量

基于树轮宽度指标,精确重建了黄河上游一级支流湟水河过去248年来6-7月份河流径流量,发现湟水河6-7月份径流量有明显的枯水期和丰水期的变化。重建结果与历史记载的相对旱涝时期比较吻合,证明了重建结果的可靠性。其中枯水期为:1753-1766年、1785-1802年、1815-1832年、1861-1887年、1918-1941年、1963-1978年、1993-1998年;丰水期为:1767-1784年、1803-1814年、1834-1860年、1891-1916年、1944-1961年、1979-1992年。周期分析表明,湟水河过去近250年6-7月份径流量有明显的2.00a、2.29a、2.31a、2.33a、2.35a、34.29a、40.00a和48.00a的变化周期。     

渭河下游水沙变化趋势分析

本文通过对近6年渭河下游水沙量数据的统计和分析得出,渭河下游河段年内多沙期较河流主汛期有所提前;年径流量和年输沙量的变化趋势基本一致,而且自60年代至2005年华县站的水沙量持续呈递减趋势;河流的冲淤情况与该河段的降雨量有着直接的关系,当年平均降雨量小的时候河流以淤积为主,当年平均降雨量大的时候河流以冲蚀为主。针对这些特征,分析了渭河下游目前存在的主要问题。     

塔里木河流域水量变化对生态环境影响分析

本文以塔里木河流域的10个水文站1961~2000年观测资料为基础,对塔里木河流域的径流变化及其对下游生态环境影响进行了分析。分析得出:(1)20世纪60年代以来,塔里木河各源流的出山口径流量增加23.82×108m3,增幅达14.97%,但是,能汇入塔里木河干流的水量并没有增加,而且比60年代减少了8.8×108m3,减幅达17.41%。(2)近40年以来,由于塔里木河干流上中游地区的耕地面积急剧扩大,用水量剧增,使下游的来水量比60年代减少7.72×108m3,减幅达76.13%。(3)由于塔里木河上中游耗水量的增加,塔里木河下游来水量逐年减少以至断流,由此造成下游生态环境出现较大的变化,主要表现有:河水盐化严重,灾害性天气出现的次数大幅增加,河道断流,地下水位下降,天然植被严重衰败,沙漠化过程加重。(4)实施塔里木河流域水资源的统一管理,统筹分配上、中、下游水量,调整大农业生产方向,完善流域节水改造配套工程,发展节水型农业,是塔里木河下游受损生态环境恢复与重建的关键。     

坡长对径流及侵蚀的影响

张家口市水保试验站坡长小区五年观测资料表明,降雨强度影响径流量、侵蚀量随坡长的变化。降雨强度较小时,径流量不能用坡长与降雨强度的乘积代替,侵蚀量随坡长增加较慢。降雨强度较大时,径流量可用坡长与降雨强度的乘积代替,侵蚀量方程中坡长指数较大。     

帽儿山天然次生林融雪径流可溶性有机碳时间动态及垂直分布

融雪期是北方地区可溶性有机碳(DOC)通过融雪径流从陆地生态系统向河流输出的关键时期,因此观测融雪径流DOC动态对分析流域碳流失至关重要。在帽儿山生态站选取东北东部典型天然次生林建立25 m×25 m的水量平衡场,测定分析2014年融雪期不同土层(5、35、65和95 cm)融雪径流DOC含量和通量的时间动态和垂直分布规律。结果表明: 1) 该融雪期土壤水量输入和输出分别为74.2和15.6 mm,径流率高达21%;融雪期DOC输出量与冬季大气输入量基本持平,分别为0.25和0.22 g/m2。2)高峰期DOC含量与其瞬时流量的相关性随土层而变。5和35 cm土层DOC含量与瞬时流量之间均无显著关系(P0.05);65 cm土层则表现出弱负对数关系(R2=0.29,P0.05),而95 cm土层呈现显著线性正相关(R2=0.43,P0.05)。不同土层DOC瞬时通量与瞬时流量之间均极显著正相关(R20.9,P0.001),且产流量越大的土层,其正相关回归方程的斜率也越大,表明水文驱动土壤DOC流失。3)融雪径流产流量和输出DOC通量大小均表现出35 cm5 cm95 cm65 cm土层趋势,其中5和35 cm土层是DOC的主要输出层,占总输出量的70%,而在融雪高峰期可高达90%。由于土壤的滞留作用,DOC含量波动范围随土层加深而向低浓度收敛。      

Controllability of Phosphorus Losses in Surface Runoff from Sloping Farmland Treated by Agricultural Practices

Phosphorus (P) loss from arable sloping land due to water erosion causes off‐site environment pollution in the Three Gorges area in China. This study aims to estimate the effects of agricultural practices on the reduction of P losses during water erosion processes under natural precipitation conditions: contour culturing with organic matter addition (CT + OM), contour culturing with wheat straw mulching (CT + SM), contour culturing with straw mulching and organic matter addition (CT + OM + SM) and conventional downslope culturing framework as a control (CK). Results demonstrated that CT + OM + SM could viably diminish runoff, sediment yields and P losses from arable sloping land. Compared with CK, CT + OM, CT + SM and CT + OM + SM lessened the surface runoff depths by 19%, 34% and 50%, respectively. A high curve number value induced a notable runoff potential from the plot. The surface‐runoff‐related total P (TP) loads for CK with yearly measures of 1·56 kg ha⁻¹ were significantly higher than those for CT + OM, CT + SM and CT + OM + SM at 1·07, 0·77 and 0·51 kg ha⁻¹ (p  < 0·05), respectively. With all things considered, the particulate P losses represented a significant division of TP losses, adding up to almost 80% in 2014 and 79% in 2015. The outcomes demonstrated that surface protection and organic matter addition are two of the greatest agricultural protection practices that lessen P losses in the surface runoff from sloping farmland by water erosion. Copyright © 2017 John Wiley & Sons, Ltd.     

EFFECT OF WATER MANAGEMENT AND POLYOLEFIN-COATED UREA ON GROWTH AND NITROGEN UPTAKE OF INDICA RICE

ABSTRACT

Poor water management and high nitrogen (N) losses are the key problems faced by rice farmers under rainfed inland valley systems. There is a need to evaluate different N fertilizers so as to identify one that could withstand these problems. The performance of polyolefin-coated urea (POCU) was therefore compared with conventional urea in a pot experiment with indica rice (Oryza sativa L. cv. IR36), using two water management systems: 1) Submerged condition referred to as good water management (GWM), and 2) excessive irrigation (over 4000 mm in 120 days) referred to as poor water management (PWM). The study was carried out during 1997 and 1998 cropping seasons under glasshouse conditions. For PWM in 1997, the pots were subjected to leaching only whereas in 1998, they were subjected to both surface runoff and leaching. For both cropping seasons, POCU-treated plants under PWM had a significantly higher grain yield (377.5 and 343.0 g m^?2) than urea-treated plants (316.5 and 260.5 g m^?2). In addition, POCU-treated plants had a significantly higher number of grains per panicle than urea-treated plants. In 1998, both the partial factor productivity of applied N and the agronomic nitrogen-use efficiency of POCU-treated plants under GWM and PWM were significantly higher than those of urea-treated plants. It can be inferred that (using sandy soils and under PWM), POCU could perform significantly better than conventional urea. This finding is important, considering the usually high nitrogen losses in rice-growing inland valley swamps.     

Fine-scale vegetation patches decline in size and cover with increasing rainfall in Australian savannas

Fine-scale vegetation patches (<5 m in width) are critically important in many landscapes because they function to obstruct surface flows of water and wind. These obstructions increase the infiltration of runoff and the capture of nutrients in runoff sediments and in wind-blown soil and litter. The importance of redistribution of runoff into runon patches from spaces between patches (fetches) is likely to be greater in drier than in wetter environments. In this paper we examine the hypothesis that the ratio of fetch to patch decreases as rainfall increases, and that this trend will be most evident on intermediate-textured soils because these soils are more prone to runoff. We measured fine-scale patches on 38 sites with sand, loam or clay soils. Sites were located along a 1000-mm rainfall gradient in the savannas of northern Australia. The width and intercept length of patches and the fetch between patches was measuring along line transects of 100–120 m oriented down slope. We found that the ratio of fetch to patch area did not decrease with decreasing rainfall, but increased on both sand and loam soils. This result was because with increasing rainfall mean spacing between patches disproportionally increased while mean patch size and cover declined. The cover of patches was negatively correlated with tree canopy cover, which significantly increased with rainfall. This negative correlation suggests that in higher rainfall savannas the size and spacing of ground-layer patches is controlled by the tree layer, and that as rainfall decreases this control decreases and runoff-runon processes increasingly structure the landscape. For savannas on clay soils these trends were not significant except that on the highest rainfall sites the cover of ground-layer patches was nearly 100% while trees were absent.     

一种改进的基于混沌吸引子的径流降尺度分析

基于混沌理论，研究水文科学的尺度问题，将混沌分析方法应用于径流的降尺度计算。通过分析大时间尺度的年径流量分解到小时间尺度的月径流量的分解系数的混沌特征量，论证了分解系数具有混沌特性。在此基础上，对分解系数的预测方法提出改进意见并给出具体算法。然后根据预测结果进行月径流量的降尺度计算。实例研究表明，改进的算法用于径流量的降尺度分析具有明显的优点。