三峡库区柑桔林水土保持效益分析

对三峡库区2种不同建园方式的柑桔林,从建园开始连续9年定位观测柑桔林水土流失情况,结果表明,梯田柑桔林径流系数在0.047~0.153之间,径流含沙量在425~2170g/m3之间,侵蚀模数在9.37~116.67g/m2之间。25°坡地柑桔林径流系数在0.079~0.378之间,径流含沙量在500~5 050 g/m3之间,侵蚀模数在48.29~1 962.04g/m2之间。在建园初期4年内,25°坡地柑桔林径流系数、径流含沙量和侵蚀模数急剧下降,径流系数由0.378下降到0.103,径流含沙量由5050 g/m3下降到350g/m3,侵蚀模数由1 962.04g/m2下降到131.42 g/m2。4年后,覆盖度的增加有效的抵消了坡度对水土流失的影响,柑桔林覆盖度达到0.82,径流系数,径流含沙量和侵蚀模数分别为0.103~0.253,350~3404 g/m3、14.71~148.4g/m2,表现出较好的水土保持效益。     

神府煤田土壤颗粒分形及降雨对径流产沙的影响

神府煤田在开发建设过程中造成的扰动地面、弃土体、弃渣体产生了严重的人为水土流失。采用野外人工模拟降雨试验方法,研究了土壤分形维数及降雨强度对未扰动地面、扰动地面、弃土体及弃渣体径流产沙的影响。结果表明,(1)弃土体、弃渣体随产流历时呈现突增—下降—稳定的过程,扰动地面和未扰动地面则经历上升—稳定的产流过程,各下垫面径流率均随着雨强的增大而增大。(2)各下垫面土壤颗粒分形维数的大小为D1(弃渣体)D2(弃土体)D3(扰动地面)D4(未扰动地面),次降雨径流量与降雨强度、分形维数分别呈显著的线性、幂函数关系,且D1~D2及D3~D4之间存在用以区分下垫面类型的临界分形维数值。(3)弃渣体侵蚀过程线呈先波动后稳定趋势,弃土体则呈多峰多谷特点,扰动地面和未扰动地面在1.0~2.5 mm min-1雨强下侵蚀速率均先增大后逐渐稳定,3.0 mm min-1时二者侵蚀速率则波动剧烈。四种下垫面平均侵蚀速率均随着雨强的增大而增大。(4)次降雨产沙量与降雨强度、分形维数均呈显著的幂函数关系。(5)径流量、产沙量与雨强和分形维数分别呈显著的线性、指数函数关系。分形维数对矿区土壤侵蚀模型的建立有重要的科学意义。     

上海地区不同施肥方式氮磷随地表径流流失研究

选择上海宝山罗店镇具有代表性的旱地蔬菜农田生态系统,在从2004年3月到8月的近半年时间里,通过对径流及径流中侵蚀泥沙的氮磷流失情况的连续监测与实验分析,研究了旱地农田施肥与氮磷流失污染之间的关系,探讨了农田氮磷的迁移特征及环境效应,主要结果表明:随地表径流流失的总氮、总磷,流失形态以沉积相为主,大部分是当季施用的化肥,随径流排出农田的氮素中有37.7%是当季施用的氮素化肥,磷素中有26.9%是当季施用的磷素化肥。     

Effect of tillage and mode of straw mulch application on soil erosion in the submontaneous tract of Punjab, India

The submontaneous tract of Punjab comprising 10% of the state, is prone to soil erosion by water. Soils of the area are coarse in texture, low in organic matter and poor in fertility. High intensity rains during the monsoon season result in fertile topsoil removal. There is an urgent need to control soil erosion in this region so as to improve soil productivity. A field study was conducted to estimate the effect of tillage and different modes of mulch application on soil erosion losses. Treatments comprised two levels of tillage, viz. minimum (T_m) and conventional (T_c) in the main plots and five modes of straw mulch application, viz. mulch spread over whole plot (M_w), mulch spread on lower one-third of plot (M_1/3), mulch applied in strips (M_s), vertical mulching (M_v) and unmulched control (M_o), in subplots in a replicated split plot design. Rate of mulch application was 6 t ha⁻¹ in all modes. Compared with M_o, M_w reduced runoff by 33%. Runoff and soil loss were 5 and 40% higher under T_c than under T_m. Though other modes of straw mulch application (M_1/3, M_s and M_v) controlled soil loss better than M_o, their effectiveness was less than M_w. T_m was more effective in conserving soil moisture than T_c. Compared with M_o, M_w had 3–7% higher soil moisture content in the 0–30 cm soil depth under T_m. Minimum soil temperature of the surface layer was 1.4–2.4 °C lower under M_w than under M_o. Straw mulching reduced maximum soil temperature and helped in conserving soil moisture. Minimum tillage coupled with M_w was highly effective in reducing soil erosion losses, decreasing soil temperature and increasing moisture content by providing maximum surface cover.     

The effect of urban refuse compost and different tractors tyres on soil physical properties, soil erosion and maize yield

Application of urban refuse compost to agricultural soil could help to solve municipalities' problems related to the increasing production of waste only if soil property improvement and environmental conservation can be demonstrated. The use of low-pressure tractor tyres is another proposal in modern agriculture for reducing soil compaction. This study thus aimed to detect the effects of both compost and low-pressure tractor tyres on soil loss, runoff, aggregate stability, bulk density, penetrometer resistance and maize (Zea mays L.) yield. A 3-year field experiment was carried out on a hilly (15% slope) clay loam soil in central Italy. Twelve plots (200 m² each) were monitored with tipping-pot devices for runoff and soil erosion measurement. Treatments were: compost addition (64 Mg ha⁻¹), mineral fertilisation, use of low-pressure tyres, use of traditional tyres, with three replicates, in a fully randomised block design. Compost was applied once at the beginning of the experiment. Runoff reduction due to compost ranged between 7 and 399 m³ ha⁻¹ during seasons, while soil erosion was reduced between 0.2 and 2.4 Mg ha⁻¹. Mean weight diameter (MWD) of stable aggregates, measured on wheel tracks, increased by 2.19 mm, then progressively decreased. Compost significantly increased bulk density by 0.08 Mg m⁻³ due to its inert fraction content. This effect was less evident in the second and third year, probably due to harrowing. Maize yields were slightly, but significantly, reduced in composted plots by 1.72 Mg ha⁻¹ in the third year. Low-pressure tyres significantly reduced soil loss in the third year by 1 Mg ha⁻¹. Furthermore, they did not significantly influence runoff volumes and soil structural stability. Low-pressure tyres or compost addition were singly able to prevent an increase in penetrometer resistance due to agricultural machinery traffic. Low-pressure tyres increased the maize yield during the 3 years and the difference (0.4 Mg ha⁻¹) became significant in the third year. In conclusion, results show the positive lasting effect of compost in ameliorating soil physical properties and reducing runoff and soil erosion. Low-pressure tyres appear justifiable both for the observed increase of grain production and reduction of soil compaction. This latter effect is, nevertheless, masked by compost addition which is also able to reduce penetrometer resistance. Further research is required to explain the causes of the slight inhibition of grain yield observed when compost was compared with mineral fertilisation.     

清涧河水沙变化分析

清涧河流域水土流失严重。年侵蚀模数在１００００ｔ／ｋｍ２以上。自５０年代初开展水土保持工作，截至１９８９年底止，共治理水土流失面积２２０４．０７ｋｍ２，治理程度达５０．６７％，流域输水输沙明显减少。分析表明：清涧河水沙减少受降雨和流域治理的共同影响，与１９６９年以前相比，７０年代年均减沙１５．４％，８０年代年均减沙７１．３％。在减沙量中，降雨偏枯影响７０年代占１４．６％～２８．２％，８０年代占３６．９％～４１．８％；流域治理减沙量７０年代占７１．８％～８５．５％，８０年代占５８．２％～６３．１％。同时，流域治理减水量也由７０年代的１８．２％～３３．９％增加到８０年代的４２．９％～４７．７％。     

土壤磷素流失的途径、环境影响及对策

土壤长期过量的P肥(包括化肥和有机肥)投入导致土壤P素水平的提高,从而加大了土壤P素流失的风险。大部分水体富营养化的限制因素是P,土壤P的流失是重要的非点源污染。本文对国内外有关土壤P管理的研究做一综述,内容包括土壤P对水体富营养化的贡献、土壤P的流失途径及影响因素、系列水体P和土壤P指数、土壤P流失控制对策(土地利用管理、立法、政策的改变)等。     

四川紫色土区小流域土壤养分流失初步研究

通过对四川紫色土区小流域降雨的观测、径流养分和泥沙含量的分析,初步探讨了紫色土区养分的流失规律。多数研究认为,土壤养分大部分随泥沙携带而流失,而本文的研究结果却表明了:在研究区域,土壤养分流失的主要途径是径流的流失,而随泥沙携带的潜在土壤养分,由于产沙量较少,其流失总量并不多。     

坡耕地径流沉积物中磷素的富集特征及其生物有效性

通过模拟降雨试验和回归分析,研究了洋河流域坡耕地径流沉积物对磷素的富集特征及其生物有效性,结果表明:洋河流域坡耕地径流沉积物对磷有明显的富集作用,富集系数在1.33～1.43之间;沉积物中磷的形态以无机磷为主,平均占全磷的75.23%,对不同结合态的磷富集程度有明显差异;不同土壤条件下,径流沉积物中各结合态磷的生物有效性不同,Fe-P对沉积物中NaOH-P的贡献率最大.     

Simulating site-specific impacts of climate change on soil erosion and surface hydrology in southern Loess Plateau of China

Proper spatial and temporal treatments of climate change scenarios projected by General Circulation Models (GCMs) are critical to accurate assessment of climatic impacts on natural resources and ecosystems. The objective of this study was to evaluate the site-specific impacts of climate change on soil erosion and surface hydrology at the Changwu station of Shaanxi, China using a new spatiotemporal downscaling method. The Water Erosion Prediction Project (WEPP) model and climate change scenarios projected by the U.K. Hadley Centre's GCM (HadCM3) under the A2, B2, and GGa emissions scenarios were used in this study. The monthly precipitation and temperature projections were downloaded for the periods of 1900–1999 and 2010–2039 for the grid box containing the Changwu station. Univariate transfer functions were derived by matching probability distributions between station-measured and GCM-projected monthly precipitation and temperature for the 1950–1999 period. The derived functions were used to spatially downscale the GCM monthly projections of 2010–2039 in the grid box to the Changwu station. The downscaled monthly data were further disaggregated to daily weather series using a stochastic weather generator (CLIGEN). The HadCM3 projected that average annual precipitation during 2010–2039 would increase by 4 to 18% at Changwu and that frequency and intensity of large storms would also increase. Under the conventional tillage, simulated percent increases during 2010–2039, compared with the present climate, would be 49–112% for runoff and 31–167% for soil loss. However, simulated soil losses under the conservation tillage during 2010–2039 would be reduced by 39–51% compared with those under the conventional tillage in the present climate. The considerable reduction in soil loss in the conservation tillage indicates the importance of adopting conservation tillage in the region to control soil erosion under climate change.