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1.
为有效防治三峡库区坡耕地氮磷流失,在三峡库区长坪小流域连续进行两年野外径流小区监测试验。在自然降雨条件下进行免耕秸秆覆盖(SM)和对照(CK)两个处理的田间试验,研究了免耕秸秆覆盖措施对地表径流和氮磷养分流失的影响。结果表明:(1)降雨量与径流量极显著正相关,径流主要由几次暴雨事件造成,需要重点防范玉米季暴雨造成的水土流失。免耕秸秆覆盖能减少地表产流产沙,相比对照处理,免耕秸秆覆盖减少19.1%的径流流失,减少63.6%的泥沙流失。(2)免耕秸秆覆盖分别降低了21.3%,25.8%的总氮和总磷流失量,径流量和氮磷流失量呈极显著正相关,免耕秸秆覆盖主要通过减少径流量来减少氮磷流失。(3)坡耕地油菜—玉米种植制的氮磷流失风险期为6—7月初,该时期CK处理41.3%的径流量贡献了81.4%,52.1%的总氮和总磷流失,SM处理38.4%的径流量贡献了75.2%,48.2%的总氮和总磷流失,在该时期通过免耕秸秆覆盖可分别减少17.5%,31.7%的总氮和总磷流失。研究表明,免耕秸秆覆盖是控制三峡库区坡耕地氮磷养分流失的良好水土保持措施。 相似文献
2.
《国际水土保持研究(英文)》2022,10(1):129-142
Water erosion process induces differences to the nitrogen (N) functional microbial community structure, which is the driving force to key N processes at soil-water interface. However, how the soil N transformations associated with water erosion is affected by microorganisms, and how the microbial respond, are still unclear. The objective of this study is to investigate the changes of microbial diversity and community structure of the N-cycle function microorganisms as affected by water erosion under application of organic manure and straw cover. On the basis of iso-nitrogen substitution, four treatments were set up: 1) only chemical fertilizer with N 150 kg ha?1, P2O5 60 kg ha?1 and K2O 90 kg ha?1 (CK); the N was substituted 20% by 2) organic manure (OM); 3) straw (SW); and 4) organic manure + straw (1:1) (OMSW). The results showed that applying organic manure and straw to sloping farmland can increase soil N contents, but reduce runoff depth, Kw, sediment yield and N loss, especially in the OMSW. Straw cover and straw + organic manure increased the diversity (Chao1) of nitrifier (AOB), and both diversity and uniformity (Shannon) of denitrifier (nirK/S) were increased in the OMSW. All erosion control measures reduced N-fixing bacteria diversity and increased their uniformity, and the combined application of organic manure and straw cover was a better erosion control measure than the single application of them. Improved soil chemistry and erodibility were the main drives for the changes of N-functional microbial community structure and the appearance of dominant bacteria with different organic materials. 相似文献
3.
中国三峡库区坡地果园保护性措施减少氮磷的流失 总被引:1,自引:0,他引:1
The increased application of chemical fertilizers in citrus orchards and the non-point source nitrogen (N) and phosphorus (P) diffusion threaten the fresh water quality of the Three Gorges Reservoir area of China. A 10-year field trial on sloping citrus lands was conducted to evaluate five protection methods for reducing N and P losses: 1) intercropping with perennial white clover (CW); 2) straw mulching of the soil surface (CS); 3) intercropping with yellow daylily contour hedgerows (CH); 4) an impermeable membrane buried in the soil along the contour lines (CM); and 5) intercropping with a rotation of wheat and peanut (CWP). An area of conventional citrus management was also maintained as the control (CK). The results showed that CM and CH were the most effective methods for reducing surface runoff. The sediment yield were reduced at the highest rate by CW and CH and was also significantly reduced by CS. Reduced runoff volume and sediment yield were the crucial mechanism for the reductions in N and P losses. Compared with the control, CW, CS, CH, and CM reduced annual runoff by 9%, 13%, 25%, and 30%, sediment yield by 77%, 55%, 71%, and 28%, N loss by 10%, 23% 36%, and 37%, and P loss by 39%, 31%, 27%, and 25%, respectively. CW, CS, CH, and CM were effective in reducing N and P losses from the sloping citrus land. However, over the long-term, surface soil nutrient accumulation in CW, CS, and CH diminished the benefit of those methods in reducing N and P losses. In addition, CWP increased soil erosion and nutrient loss, which showed that citrus intercropping with other crops was an unsuitable method for citrus sloping land in the Three Gorges area. 相似文献
4.
The effects of contour hedges and reduced tillage with ridge furrow cultivation on nitrogen and phosphorus losses from sloping arable land 总被引:2,自引:0,他引:2
Lizhong Xia Guohua Liu Li Ma Linzhang Yang Yundong Li 《Journal of Soils and Sediments》2014,14(3):462-470
Purpose
Agricultural nonpoint sources of nitrogen and phosphorus pollution are thought to pose great threats to the regional water quality in the Three Gorges area (TGA) of China. To explore the effects of protective methods on soil and nutrient losses from sloping arable land, rainfall runoff plot experiment was conducted from May 2010 to May 2011.Materials and methods
For a rotation of wheat and maize, four treatments with three replicates were set up: H1, planting Vetiveria zizanioides contour hedgerows; H2, planting alfalfa contour hedgerows; H3, wheat intercropped with horsebean and maize intercropped with soybean, reduced tillage, and ridge furrow cultivation; and H4, conventional management. Nitrogen and phosphorus losses via surface and subsurface runoff were analyzed.Results and discussion
When compared with that in H4, sediment phosphorus losses from plots of H1, H2, and H3 were significantly reduced by 46.61, 30.51, and 37.29%, respectively, while surface runoff total phosphorus loss was reduced by 45.38, 28.46, and 34.62%, respectively. Sediment nitrogen and surface runoff total nitrogen losses were not reduced significantly. Sediments were highly enriched with organic matter and nutrients, and decaying organic matter from plant residuals contributed to sediment nitrogen and phosphorus losses.Conclusions
In sandy loam sloping arable land, contour hedgerows and ridge furrow cultivation were effective in reducing phosphorus loss via surface runoff. However, subsurface runoff is the primary path for nutrient losses, especially for nitrogen loss. Accordingly, attention should be given to improve the management of fertilizer nutrients, soil water, and plant residuals in sandy loam slope land. 相似文献5.
耕作措施及雨强对南方红壤坡耕地侵蚀的影响 总被引:4,自引:3,他引:4
选择典型南方红壤区平均坡度为10°的坡耕地小区进行天然降雨观测,对横坡耕作、顺坡耕作、顺坡耕作+植物篱、稻草覆盖4种耕作措施在侵蚀过程中的径流泥沙和养分流失特征进行研究。结果表明,监测期间,径流深和泥沙流失量基本随雨强的增大而增加。随着耕作措施由顺坡耕作向顺坡耕作+植物篱、横坡耕作、稻草覆盖的转换,减流效益、减氮效益和减磷效益依次增大。稻草覆盖措施减流效益最佳,为91.77%;横坡耕作措施减沙效益最佳,为98.91%;稻草覆盖、横坡耕作和植物篱3种措施在防治高强度降雨引发的土壤侵蚀和养分流失具有较高的效益。耕作措施对泥沙粒径分布有影响。与顺坡耕作、横坡耕作相比,植物篱和稻草覆盖措施能够更有效地拦截径流中的粗颗粒。该研究可为南方红壤丘陵区坡耕地选择合适的耕作措施和防治农业非点源污染提供依据。 相似文献
6.
黑土区垄作方式对坡耕地土壤侵蚀的调控效果 总被引:1,自引:0,他引:1
[目的]分析黑土区不同垄作方式对坡耕地土壤侵蚀的调控效果,为该区土壤侵蚀防治提供科学指导。[方法]在5°和10°坡耕地开展人工模拟降雨试验,降雨强度为50,100 mm/h,垄作方式包括:横坡垄作、垄向区田、顺垄+底部横垄和横垄+排水沟,对照处理为传统顺坡垄作。[结果]试验条件下,与顺坡垄作处理相比,横坡垄作、垄向区田、顺垄+底部横垄和横垄+排水沟处理均可有效调节径流、降低土壤侵蚀量,但不同垄作方式对径流和侵蚀的调控效果随着降雨强度和坡度的增加而减小。在5°坡耕地,横坡垄作方式对径流和侵蚀的调控效果最佳,产流率和土壤侵蚀速率分别稳定在15.0 mm/h和0.2 kg/(m~2·h)以下。在50,100 mm/h降雨强度下,与顺坡垄作处理相比,其径流量分别降低92.3%和83.9%,土壤侵蚀量分别降低96.8%和94.6%;而垄向区田方式对径流和侵蚀的调控效果略大于顺垄+底部横垄处理。在10°坡耕地,横坡垄作方式在降雨前期具有较好的蓄水保土作用,但在降雨后期垄体易损坏,造成土壤侵蚀量剧增;横垄+排水沟方式在降雨前期能够蓄水保土,在降雨后期能够较好地进行排水。[结论]在坡度平缓的坡耕地,应... 相似文献
7.
香根草篱和稻草覆盖对红壤坡耕地土壤肥力的影响 总被引:3,自引:1,他引:3
香根草(Vetiveria zizanioides L.)篱和稻草覆盖是重要的水土保持措施。为揭示香根草篱和稻草覆盖对红壤缓坡旱地土壤肥力的影响,本研究于2011年设置了CK、香根草篱、稻草覆盖、香根草篱+稻草覆盖4个处理,并分析了2011年和2012年的花生产量、土壤有机质和氮磷钾养分变化,结果表明:各处理花生产量呈现出覆盖草篱+覆盖草篱、对照。与CK处理相比,覆盖和草篱+覆盖处理在2011年分别增产31.74%、15.23%,2012年增产59.39%、41.65%。香根草篱和稻草覆盖可以显著提高红壤坡耕地的有机质、碱解氮、有效磷和速效钾含量,但土壤全氮、全磷和全钾含量不存在显著增加。与2011年相比,虽然2012年草篱和覆盖措施的土壤碱解氮、有效磷和速效钾含量的增幅呈下降趋势,但在所有处理中均表现出草篱+覆盖处理的速效养分最高,这说明,虽然红壤坡耕地花生种植后土壤碱解氮、有效磷和速效钾含量明显下降,但草篱+覆盖可以在增加养分投入的同时有效维持和保蓄土壤速效养分。 相似文献
8.
Riddle Matthew Bergström Lars Schmieder Frank Lundberg Daniel Condron Leo Cederlund Harald 《Journal of Soils and Sediments》2019,19(4):1875-1889
Purpose
Recent research suggests that Swedish organic arable soils have been under-recognized as a potential source of phosphorus (P) loading to water bodies. The aim of this study was to compare P losses through leaching from organic and high-fertility mineral soils. In addition, the effectiveness of a magnesium-salt-coated biochar applied below the topsoil as a mitigation strategy for reducing P losses was evaluated.
Materials and methodsPhosphorus leaching was measured from four medium- to high-P arable soils, two Typic Haplosaprists (organic 1 and 2), a Typic Hapludalf (sand), and an unclassified loam textured soil (loam), in a 17-month field study utilizing 90-cm-long lysimeters. A magnesium-salt-coated biochar was produced and characterized using X-ray powder diffraction (XPD), scanning electron microscopy with energy-dispersive spectroscopy (SEM-EDS), and X-ray adsorption (XANES) spectroscopy, and its phosphate adsorption capacity was determined at laboratory scale. It was also applied as a 3-cm layer, 27 cm below the soil surface of the same lysimeters and examined as a mitigation measure to reduce P leaching.
Results and discussionTotal-P loads from the 17-month, unamended lysimeters were in the order of organic 2 (1.2 kg ha?1)?>?organic 1 (1.0 kg ha?1)?>?sand (0.3 kg ha?1)?>?loam (0.2 kg ha?1). Macropore flow, humic matter competition for sorption sites, and fewer sorption sites likely caused higher P losses from the organic soils. Analysis by XRD and SEM revealed magnesium was primarily deposited as periclase (MgO) on the biochar surface but hydrated to brucite (Mg(OH)2) in water. The Langmuir maximum adsorption capacity (Qmax) of the coated biochar was 65.4 mg P g?1. Lysimeters produced mixed results, with a 74% (P?<?0.05), 51% (NS), and 30% (NS) reduction in phosphate-P from the organic 1, organic 2, and sand, respectively, while P leaching increased by 230% (NS) from the loam.
ConclusionsThe findings of this study indicate that P leached from organic arable soils can be greater than from mineral soils, and therefore, these organic soils require further investigation into reducing their P losses. Metal-enriched biochar, applied as an adsorptive layer below the topsoil, has the potential to reduce P losses from medium- to high-P organic soils but appear to be less useful in mineral soils.
相似文献9.
黄土旱塬长期秸秆还田对土壤养分、酶活性及玉米产量的影响 总被引:4,自引:0,他引:4
研究黄土旱塬区玉米生产中长期秸秆还田对土壤性质及玉米产量的影响,可为农田土壤可持续利用及质量提升提供科学依据。本研究基于连续24年(1992—2016年)秸秆还田长期定位试验,设置秸秆过腹还田、秸秆直接还田、秸秆覆盖还田以及不还田处理,研究长期不同秸秆还田方式对土壤化学性质、酶活性以及玉米产量的影响。研究表明,秸秆不还田处理累积玉米产量为1.695×105 kg·hm?2,覆盖还田、直接还田和过腹还田处理累积玉米产量分别为1.885×105 kg·hm?2、1.854×105 kg·hm?2、2.001×105 kg·hm?2,其增产率分别为10.1%、8.6%、15.3%。3种秸秆还田均可以显著提高0~20 cm土层土壤有机碳含量6%~14%,对20~40 cm土层土壤有机碳含量无显著影响。与秸秆不还田相比,长期过腹还田可显著增加土壤全氮、全磷、全钾、有效氮、有效磷和有效钾含量,秸秆直接还田可显著增加土壤全氮、全钾、有效氮和有效钾含量,长期覆盖还田仅提高土壤有效氮和有效钾含量。土壤蔗糖酶活性表现为过腹还田最高,直接还田和覆盖还田次之,不还田处理最低。秸秆直接还田0~20 cm纤维素酶活性最高,是不还田处理的2.2倍。过腹还田使土壤脲酶活性和碱性磷酸酶活性分别显著提高13.0%和20.5%,直接还田和秸秆覆盖对脲酶和碱性磷酸酶活性无显著影响。玉米生产中长期连续秸秆过腹还田和直接还田对土壤养分含量及酶活性产生了深远的影响,尤其是土壤蔗糖酶活性的提高与玉米产量稳定和提升有非常紧密联系。 相似文献
10.
秸秆覆盖和有机质输入对紫色土土壤可蚀性的影响 总被引:2,自引:0,他引:2
以紫色土坡耕地为研究对象开展野外径流小区定位监测试验,设置有机质(OM)、秸秆覆盖(SW)、有机质+秸秆覆盖(OM+SW)和对照(无秸秆覆盖,不增施有机质,CK)4个处理,对2014年侵蚀性降雨条件下不同处理小区径流及产沙特征进行分析,以单位径流冲刷侵蚀量(K_w)作为土壤可蚀性指标,研究四川省中江县紫色土区秸秆覆盖和有机质输入对坡耕地土壤可蚀性的影响。结果表明:秸秆和有机质输入能显著降低紫色土区坡耕地产流量,4个处理减小径流的效果表现为OM+SWSWOMCK;有机质、秸秆覆盖均显著降低单位径流侵蚀量,从而减小土壤可蚀性,OM、SW、OM+SW处理对土壤可蚀性的平均消减率分别为22.30%、29.76%、35.04%,秸秆覆盖处理(SW)对土壤可蚀性的减小效应略高于有机质处理(OM),但二者差异不显著。综合分析得出,增施有机质的同时进行秸秆覆盖可作为紫色土区坡耕地减小土壤可蚀性的有效措施。 相似文献
11.
Huili Guo Liquan Sun Shufang Wu Hao Feng Robert L. Hill Kadambot H. M. Siddique 《Soil Use and Management》2023,39(4):1321-1334
Soil and water conservation practices are used widely to prevent soil erosion and protect soil and water resources, which is significant for ecological restoration and food security. However, rill evolution processes, erosion and deposition characteristics and critical hydrodynamic parameters need more research. In order to investigate the effect of soil and water conservation practices on soil erosion dynamics, simulated rainfall experiments were undertaken in a laboratory on 15° loess slopes with engineering measures (fish-scale pits, FSPs), tillage measures (artificial digging, AD; contour ploughing, CP) and bare slope (CK). The results showed that: (1) during rill erosion, hillslopes with FSPs, CP and AD were more likely to develop wide and shallow rills, while a bare slope (CK) was more likely to develop narrow and deep rills. At the end of the experiment (cumulative rainfall was about 150 mm), headward retreat erosion dominated the AD slope (maximum rill length: 3.27 m), side-wall expansion erosion dominated the CP slope (maximum rill width: 0.522 m) and bed incision erosion dominated the CK (maximum rill depth: 0.09 m); (2) soil and water conservation practices reduced surface erosion and sediment transport and runoff velocity. However, the positive effects disappeared when rainfall amounts exceeded 82.5, 105 and 127.5 mm for FSPs, CP and AD, respectively; (3) for runoff kinetic energy and runoff shear strength of 3 J and 1.5 N/m2, respectively, soil and water conservation measures had greater anti-erosion abilities than CK; (4) as rainfall duration increased, surface roughness, runoff rate and sediment concentration increased on the CK and FSP treatments, but decreased on the CP and AD treatments. This study has important implications for managing different soil and water conservation measures based on rainfall conditions and offers a deeper understanding of soil erosion processes. 相似文献
12.
C. Fernndez J.A. Vega E. Jimnez D.C.S. Vieira A. Merino A. Ferreiro T. Fonturbel 《Land Degradation \u0026amp; Development》2012,23(2):150-156
The effects of two different soil rehabilitation treatments on runoff, infiltration, erosion and species diversity were evaluated in a shrubland area in Galicia (NW Spain) after an experimental fire by means of rainfall simulations. The treatments compared were: seeding, seeding + mulching and control (untreated). Rainfall simulations were conducted 9 months after fire and the application of soil rehabilitation treatments. A rainfall rate of 67 mm h−1 was applied for 30 min to each runoff plot. Seeding significantly increased plant species richness in the treated plots relative to the control plots, although it had no effect on diversity or evenness. Rehabilitation treatments did not significantly increase soil cover or affect runoff and infiltration. Soil losses were low in all cases, varying from 75·6 kg ha−1 in the seeded + mulched plots to 212·1 kg ha−1 in the untreated plots. However, there were no significant differences in sediment yields between treatments. The percentage of bare soil appeared to be a critical variable in controlling runoff and erosion. Copyright © 2010 John Wiley & Sons, Ltd. 相似文献
13.
Wang Jianyong Liu Huiming Wang Shaoming Liu Yingxia Cheng Zhengguo Fu Guangqiang Mo Fei Xiong Youcai 《Journal of Soils and Sediments》2019,19(1):116-127
Purpose
The suppression effect of a sandy soil interlayer on topsoil enrichment of salt ions was investigated. However, whether this suppression effect was enhanced by surface mulching was little documented. The objectives of this study were to compare the suppression effects under different materials mulching, and to investigate an innovative method to suppress the soil salt ions down-to-top enrichment.
Materials and methodsIn this study, the sandy soil layer was pre-positioned at 60–100 cm depth in a salt-contaminated site in advance, achieving the suppression effect on surface enrichment of salt components as expected. Three treatments were herein designed as bare field (CK), plastic film mulching (PM), and maize straw mulching (SM) to examine the dynamics of water and salt movement across soil profiles during the summer with strong evaporation.
Results and discussionsResults showed that total salt content was increased by 21.3 and 8.0% in CK and SM respectively, while decreased by 24.9% in PM at the end of strong evaporation period, comparing with the beginning. Thus, surface mulching further strengthened this suppression effect, but PM displayed better performance than SM did. The data also demonstrated that vertical transport of soil water was much restrained in PM and SM, accordingly inhibiting upward transfer of salt ions. Particularly, sodium adsorption ratio (SAR) ranged from 14.3–265.7, 17.9–147.1, 38.4–147.2 mmol1/2 kg?1/2 at a shallow soil layer (0–60 cm) in CK, PM, and SM, respectively.
ConclusionsThe results suggested that sandy soil interlayer settings with plastic mulching are a critical technical strategy for salt-contaminated land reutilization and management.
相似文献14.
Effect of Polyacrylamide integrated with other soil amendments on runoff and soil loss: Case study from northwest Ethiopia 总被引:1,自引:0,他引:1
《国际水土保持研究(英文)》2022,10(3):487-496
Anionic polyacrylamide (PAM) has the potential to reduce soil erosion through soil conditioning. However, a comprehensive study about its effectiveness especially when applied combined with other amendments have rarely been conducted in the tropical highland climatic conditions, such as in Ethiopia. The study assessed the effectiveness of PAM (P = 40 kg ha?1) alone or integrated with other soil amendments such as gypsum (G = 5 t ha?1), lime (L = 4 t ha?1) and biochar (B = 8 t ha?1) on runoff and soil loss at Aba Gerima watershed in the Upper Blue Nile basin, northwest of Ethiopia, where there is high erosion-caused soil degradation. A total of 79 daily runoff and sediment data were collected from eight runoff plots (1.3m × 4m) with three replications planted with teff (Eragrostis tef) crop for two years (2018 & 2019) rainy seasons. Associated changes in soil physicochemical properties and crop growth parameters were investigated. Treatments reduced seasonal runoff by 12–39% and soil loss by 13–53%. The highest reduction in runoff was observed from P + B and PAM treatments while the highest reduction in soil loss was observed from that of P + L and PAM treatments. Integrating PAM with other amendments improved soil structural stability, moisture content, soil pH (P + L) and organic matter (P + B), leading to favorable environment for crop growth (biomass yield) and reduced runoff and soil erosion. Unlike PAM, biochar and lime amendments may need more time after application to be more effective. Hence continuing the field experiment and studying physico-chemical mechanisms for extended period will better elucidate their single or combined effectiveness over time. 相似文献
15.
《Land Degradation \u0026amp; Development》2017,28(5):1549-1556
The effect of raindrop temperatures on runoff generation and erosion on clayey soil was investigated in sprinkling experiments with a laboratory rotating disk rain simulator. The experiments were applied to Rhodoxeralt (Terra Rossa) soil with two pre‐prepared moisture contents: hygroscopic and field capacity. For each moisture content, three rainfall temperatures were applied: 2, 20, and 35 °C. Erosion was generally lower in the pre‐wetted soil than in the dry soil (12.5 and 24.4 g m−2 per 40 mm of rain, respectively). Whereas there was no significant effect of raindrop temperature on the dry soil, the soil that was pre‐moistened to field capacity was affected by rainwater temperature: runoff and erosion were high when the temperature difference between rainfall and soil surface was high, and sediment yields were 13·9, 5·2, and 18·3 g m−2 per 40 mm of rain, for rain temperature of 2, 20, and 35 °C, respectively. It is reasonable to conclude that thermophoresis caused by thermal gradients within the soil solution reduces the stability of aggregates and then increases the soil losses. Copyright © 2016 John Wiley & Sons, Ltd. 相似文献
16.
Sibaway Bakari Mwango Balthazar Michael Msanya Peter W. Mtakwa Didas N. Kimaro Jozef Deckers Jean Poesen 《Land Degradation \u0026amp; Development》2016,27(4):1266-1275
Soil erosion is a major threat to food security in rural areas of Africa. Field experiments were conducted from 2011 to 2014 in Majulai and Migambo villages with contrasting climatic conditions in Usambara Mountains, Tanzania. The aim was to investigate the effectiveness of mulching in reducing soil erosion and restoring soil fertility for productivity of maize (Zea mays) and beans (Phaseolus vulgaris) under miraba, a unique indigenous soil conservation measure in the area. Soil loss was significantly higher (p < 0·05) under miraba sole than under miraba with mulching, for example, 35 versus 20 and 13 versus 8 Mg ha−1 y−1 for Majulai and Migambo villages, respectively, in 2012. Soil fertility status was significantly higher (p < 0·05) under miraba with Tughutu mulching than under miraba sole, for example, 0·35 versus 0·25% total N, 37 versus 22 mg kg−1 P and 0·6 versus 0·2 cmol(+) kg−1 K for the Majulai village; and 0·46 versus 0·38 total N, 17·2 versus 10·2 mg kg−1 P and 0·50 versus 0·2 cmol(+) kg−1 K for the Migambo village. Maize and bean yields (Mg ha−1) were significantly higher (p < 0·05) under miraba with Tughutu mulching than under miraba sole, 2·0 versus 1·3 for maize and 0·9 versus 0·8 for beans in Majulai; and 3·8 versus 2·6 for maize and 1·0 versus 0·8 for beans in the Migambo village in 2012. This implies that Tughutu mulching is more effective in improving crop yield than Tithonia, although both could potentially protect the arable land from degradation caused by water erosion under miraba. Copyright © 2014 John Wiley & Sons, Ltd. 相似文献
17.
《国际水土保持研究(英文)》2023,11(2):327-338
Identifying the nitrogen (N) fate is complicated and a great challenge in karst watersheds because of the co-existence of natural pools and anthropogenic sources. The objective of the study was to use stable isotopic composition of dual-isotope (δ15NNitrate and δ18ONitrate) and LOADEST model approaches to trace N sources, pathways in karst watershed. The study was conducted in the Houzhai watershed, which is a typical agricultural karst watershed from July 2016 to August 2018, to reveal the N fate and the coupled carbon(C)–N processes occurring in the riverine-watershed with agricultural activities. We found that the wet deposition of total nitrogen (TN) flux was 33.50 kg hm−2·a−1 and dissolved nitrogen (DN) flux was 21.66 kg hm−2·a−1. The DN runoff loss was 2.10 × 105 kg·a−1 and the loss of DN during the wet season accounted for 95.4% over a year. In the wet season, NO3−-N daily efflux was 977.62 ± 516.66 kg ha−1·day−1and 248.77 ± 57.83 kg ha−1·day−1 in the dry season. The NH4+-N efflux was 29.17 ± 10.50 kg ha−1·day−1 and 4.42 ± 3.07 kg ha−1·day−1 in the wet and dry seasons, respectively. The main form output load of N was NO3−-N which was more than 30 times as much as NH4+-N output loss. The NO3−-N caused by rainfall contributed 11.82%–53.61% to the export load. Nitrate from soil contributed over 94% of the N to Houzhai river caused by N leaching. In addition, manure and farmland soil were the main sources of groundwater in the Houzhai watersheds, the contribution rates were 25.9% and 22.5%. The chemical N fertilizers affected carbonate weathering strongly, and the HCO3− flux caused by nitrification due to N fertilizers application in soil accounted for 23.5% of the entire watershed. This study suggested that carbonate weathering may be influenced by nitrogen nitrification in the karst watershed. 相似文献
18.
This paper reports computer simulations carried out using data from a rainfall simulator study on a steeply sloping revegetated area (a soundbund) at the NorthParkes Mine, near Parkes in New South Wales, Australia. Simulations of slope stability used a combination of daily time‐step models to consider soil water balances and runoff, growth of grass/legume pasture and soil erosion. Simulations indicated that long‐term erosion rates on the soundbund would be low (1·01–1·27 t ha−1 yr−1) due to low runoff rates and good vegetative cover. The simulations highlighted that peak vegetative growth occurred prior to the period of peak erosion hazard, with carry‐over dry matter being crucial for erosion control during the period of peak rainfall erosivity. This, in turn, indicated that grazing during the periods of peak growth and peak erosion hazard should be avoided (to avoid loss of dry matter). It also indicated that there was value in establishing grass species that would give greater growth during summer months, and that may produce dry matter that is more persistent through time. Simulations of stormwater flows in channels draining various lifts on the soundbund compared a range of alternatives with respect to channel length, gradient and roughness. The simulations indicated little effect of channel length on peak flow rates or depths once channel lengths exceeded 250 m and also showed little effect of vegetative roughness on peak flow rates or depths once Manning's n values exceeded 0·05. Implications of these results for design of drainage channels and drop structures on the soundbund are discussed. Copyright © 2000 John Wiley & Sons, Ltd. 相似文献
19.
《Land Degradation \u0026amp; Development》2017,28(5):1615-1625
Rill is a major type of erosion on upland slopes. Continuous rainfall is commonly used in laboratory studies on rill erosion despite the fact the rainfall was often discontinuous in the field; this is particularly true in the Chinese Loess Plateau. This study compares rill erosion under continuous and intermittent rainfalls by using laboratory experiments. The experiments include two rainfall‐intensity treatments (90 and 120 mm h−1) and two rainfall‐pattern treatments (continuous and intermittent). The results indicate that rill formation had a significant effect on runoff and sediment concentration. For continuous and intermittent rainfall at the rainfall intensity of 90 mm h−1, the mean sediment concentrations were 1·91 and 1·73 times after rill initiation than those before rill initiation, respectively, and the rill erosion accounted for 75·5% and 77·7% of runoff duration, respectively. For continuous and intermittent rainfall at the rainfall intensity of 120 mm h−1, the mean sediment concentrations after rill initiation were 1·38 and 1·32 times that those before rill initiation, respectively, and the rill erosion represented 88·7% and 78·8% of the total runoff duration, respectively. We observed sediment sorting under all treatments; however, the low rainfall intensity boosted but the high rainfall intensity lowered the clay fraction; in contrast, the sorting remained roughly the same between the rainfall‐pattern treatments. The runoff velocity also affected the sediment sorting. Our empirical results indicated the important significance of the rainfall intermittence in predicting rill erosion. Copyright © 2017 John Wiley & Sons, Ltd. 相似文献
20.
《Land Degradation \u0026amp; Development》2017,28(2):682-690
Soil water erosion is a major agricultural concern in tropical Africa with high precipitation and low soil fertility where Oxisols are generally distributed. A field experiment was conducted in east Cameroon during the rainy season in 2013 to investigate the effects of surface mulching with the residues of Imperata cylindrica on soil losses and surface runoff water generation in a cassava cropland on an Oxisol. Three treatments were established using two small plots for each treatment: bare plot (BA), cassava plot (CA) and cassava with mulch plot (CM). Soil loss and surface runoff water were measured, and water budgets of rainfall, surface runoff and soil moisture within rainfall events were measured in all treatment plots. Runoff coefficients in all treatment plots were suppressed below 8·0% because the large volume of large pores of surface soil of Oxisols contributed to the high drainage capacity over a rainy season even under wet soil moisture conditions. Total soil loss in CM was decreased by 49% compared with that in BA and CA, despite there not being a large difference in runoff water among treatments. These results suggest that surface mulching with the residues of I. cylindrica can substantially suppress soil losses caused by particle detachment by raindrops, while it maintain soil surface with originally high permeability in cassava croplands on Oxisols. Copyright © 2016 John Wiley & Sons, Ltd. 相似文献