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1.
黄土塬区长期不同耕作、覆盖措施对表层土壤理化性状和玉米产量的影响 总被引:16,自引:3,他引:13
2.
耕作与覆盖措施对黄土塬区春玉米田土壤水气传输的影响 总被引:2,自引:1,他引:1
3.
传统耕作结合秸秆地膜双元覆盖是提高渭北旱塬春玉米产量和养分吸收的有效措施 总被引:1,自引:0,他引:1
4.
长期保护性耕作对黄绵土总有机碳和易氧化有机碳动态的影响 总被引:5,自引:1,他引:4
长期定位试验研究了黄土高原西部旱农区不同耕作措施(传统耕作T、免耕+秸秆覆盖NTS、免耕NT、传统耕作+秸秆翻埋TS、传统耕作+地膜覆盖TP和免耕+地膜覆盖NTP)对黄绵土土壤总有机碳和易氧化有机碳的影响。结果表明, 土壤有机碳含量随土壤深度的增加而降低, 10~30 cm土层土壤有机碳含量的下降较为明显, 并且在0~5 cm、5~10 cm和10~30 cm土层中, 均表现为由研究初期各处理相对差异较小到试验中后期各处理出现显著差异的变化。不同耕作措施下0~30 cm土壤总有机碳和易氧化有机碳在2002-2012年的平均含量均为NTS>TS>NTP>NT>T>TP。与传统耕作相比, 免耕各处理和传统耕作秸秆翻埋处理可增加1.2%~7.2%的土壤总有机碳, 5.3%~16.6%的土壤易氧化有机碳含量, 而传统耕作覆膜处理分别降低4.3%和2.7%。免耕和秸秆覆盖处理均有利于黄绵土土壤有机碳和易氧化有机碳的积累, 免耕结合秸秆覆盖效果最佳, 而多年传统耕作覆盖地膜后有机碳明显降低。免耕秸秆覆盖处理土壤总有机碳和易氧化有机碳含量平均值在2004年、2006年、2008年、2010年及2012年分别较2002年提高9.5%和42.9%、13.2%和67.6%、21.5%和71.5%、1.1%和15.9%、2.7%和12.6%。因此, 在西部黄土高原黄绵土区, 采用免耕结合秸秆覆盖的保护性耕作措施有利于土壤总有机碳和易氧化有机碳含量的提高, 从而有利于土壤质量的持续改善。易氧化有机碳对不同耕作措施的响应比总有机碳更灵敏, 可以将其作为指示黄绵土有机碳变化的早期指标。 相似文献
5.
Relationship between soil structure and runoff/soil loss after 24 years of conservation tillage 总被引:6,自引:1,他引:6
A better understanding of tillage and stubble management effects on surface soil structure is vital for the development of effective soil conservation practices for the long-term. Relationships between aspects of soil structure and runoff/soil loss were investigated in 24 year old field experiment on an Oxic Paleustalf, in NSW, Australia. Two tillage/stubble management systems were compared, namely direct drilled/stubble retained (DD/SR) versus conventional tillage/stubble burnt (CC/SB). Tillage and stubble burning significantly increased bulk density and decreased the macro-aggregate stability, mean weight diameter (MWD), geometric mean diameter (GMD) and total porosity, particularly macroporosity (>60 μm). For the 0–5 cm layer, DD/SR had significantly higher water stability of macro-aggregates >2 mm than CC/SB (165 g/kg versus 78 g/kg), and the volume of pore space of diameter >60 μm at 0–5 cm depth was significantly greater (more than 11%) for DD/SR than for CC/SB. Under simulated rainfall (100 mm/h) and the removal of surface stubble, both runoff and soil loss were significantly higher under CC/SB compared to DD/SR. The infiltration rate at the end of the experiment under DD/SR was 3.7 times that of CC/SB (85 mm/h versus 23 mm/h). There were significant correlations between the proportion of soil particles >0.25 mm measured after wetting by rain and both final infiltration rate (P < 0.001) and soil loss (P < 0.001). It was concluded that 24 years of direct drilling and stubble retained practices significantly reduced runoff and soil erosion hazards, due to a fundamental change in soil structure, viz. higher soil aggregate stability and higher macroporosity of the surface soil. 相似文献
6.
不同耕作和种植模式对土壤团聚体分布及稳定性的影响 总被引:27,自引:4,他引:23
通过多年定位试验,研究黄土高原丘陵沟壑区不同耕作制度和种植方式对坡耕地土壤团聚数量、分布和稳定性的影响。结果表明,不同耕作方式下,免耕覆盖处理和免耕处理可明显增加土壤中大团聚体的含量,免耕覆盖处理有着相对更高的团聚体稳定性,并且更易形成5mm水稳性团聚体;不同种植方式下,处理对大团聚体含量影响差异不显著。在同一耕作方式下不同种植方式的土壤大团聚体含量变化趋势不同。相关分析表明,大团聚体含量为土壤团聚体平均重量直径(MWD)产生影响的主要因素,容重对土壤团聚体平均重量直径亦有影响,团聚体破坏率只对水稳团聚体平均重量直径有影响。 相似文献
7.
黄土高原半干旱区保护性耕作适应性评价 总被引:4,自引:1,他引:3
在黄土高原半干旱区连续4年保护性耕作试验的基础上,利用层次分析法,对5种保护性耕作法与传统耕作法适应性(生态与经济)进行综合评价,探究适合黄土高原半干旱区的保护性农业技术体系.结果表明:在两种轮作次序(小麦/豌豆、豌豆//小麦)、两种投入方式(计秸秆和不计秸秆)下,保护性耕作法免耕秸秆覆盖(NTS)综合适应性指数(PI)均显著高于其他几种耕作方式,且PI在0.76~0.86之间,是传统耕作法(T)的2~2.5倍,NTS在该地区的适应性最强;NTS、免耕不覆盖(NT)、免耕结合地膜覆盖(NTP)3种耕作方式的PI高于传统耕作结合秸秆还田(TS)、T、传统耕作结合地膜覆盖(TP),说明NTS、NT、NTP在该区的适应性优于TS、T、TP.因此,在黄土高原半干旱区实施保护性耕作措施NTS,更能促进该区农业的持续发展. 相似文献
8.
《Soil & Tillage Research》2007,92(1-2):82-88
Soil management practices are needed in the subarctic that stabilize the soil against the forces of wind and water as well as conserve soil water for crop production. There is a paucity of information, however, regarding the long-term effects of conservation tillage on soil hydraulic properties in subarctic Alaska. The objective of this study was therefore to characterize infiltration, water retention, and saturated hydraulic conductivity of a soil 20 years after establishing tillage and straw management treatments in interior Alaska. The strip plot experimental design, established on a silt loam and maintained in continuous barley (Hordeum vulgare L.), included tillage as the main treatment and straw management as the secondary treatment. Tillage treatments included no tillage, autumn chisel plow, spring disk, and intensive tillage (autumn and spring disk) while straw treatments included retaining or removing stubble and loose straw from the soil surface after harvest. Soil properties were measured after sowing in spring 2004; saturated hydraulic conductivity was measured by the falling-head method, infiltration was measured using a double-ring infiltrometer, and water retention was assessed by measuring the temporal variation in in-situ soil water content. No tillage resulted in greater saturated hydraulic conductivity and generally retained more water against gravitational and matric forces than other tillage treatments. Infiltration was greater in autumn chisel plow than other tillage treatments and was presumably suppressed in no tillage by an organic layer overlying mineral soil. Infiltration was also enhanced by retaining straw on rather than removing straw from the soil surface after harvest. No tillage is not yet a sustainable management practice in this region due to lack of weed control strategies. In addition, the formation of an organic layer in no tillage has important ramifications for the soil hydrological and thermal environment. Therefore, minimum tillage (i.e., autumn chisel plow or spring disk) appears to be a viable management option for maximizing infiltration in interior Alaska. 相似文献
9.
Soil management practices are needed in the subarctic that stabilize the soil against the forces of wind and water as well as conserve soil water for crop production. There is a paucity of information, however, regarding the long-term effects of conservation tillage on soil hydraulic properties in subarctic Alaska. The objective of this study was therefore to characterize infiltration, water retention, and saturated hydraulic conductivity of a soil 20 years after establishing tillage and straw management treatments in interior Alaska. The strip plot experimental design, established on a silt loam and maintained in continuous barley (Hordeum vulgare L.), included tillage as the main treatment and straw management as the secondary treatment. Tillage treatments included no tillage, autumn chisel plow, spring disk, and intensive tillage (autumn and spring disk) while straw treatments included retaining or removing stubble and loose straw from the soil surface after harvest. Soil properties were measured after sowing in spring 2004; saturated hydraulic conductivity was measured by the falling-head method, infiltration was measured using a double-ring infiltrometer, and water retention was assessed by measuring the temporal variation in in-situ soil water content. No tillage resulted in greater saturated hydraulic conductivity and generally retained more water against gravitational and matric forces than other tillage treatments. Infiltration was greater in autumn chisel plow than other tillage treatments and was presumably suppressed in no tillage by an organic layer overlying mineral soil. Infiltration was also enhanced by retaining straw on rather than removing straw from the soil surface after harvest. No tillage is not yet a sustainable management practice in this region due to lack of weed control strategies. In addition, the formation of an organic layer in no tillage has important ramifications for the soil hydrological and thermal environment. Therefore, minimum tillage (i.e., autumn chisel plow or spring disk) appears to be a viable management option for maximizing infiltration in interior Alaska. 相似文献
10.
K. Ouattara B. Ouattara G. Nyberg M.P. Sdogo A. Malmer 《Soil & Tillage Research》2007,95(1-2):288-297
One of the key issues to increase soil productivity in the Sahel is to ensure water infiltration and storage in the soil. We hypothesised that reducing tillage from annual to biennial ploughing and the use of organic matter, like compost, would better sustain soil hydraulic properties. The study had the objective to propose sustainable soil fertility management techniques in the cotton–maize cropping systems. The effects of reduced tillage (RT) and annual ploughing (AP) combined with compost application (Co) on soil infiltration parameters were assessed on two soil types. Topsoil mean saturated hydraulic conductivities (Ks) were between 9 and 48 mm h−1 in the Luvisol, while in the Lixisol they were between 18 and 275 mm h−1. In the two soil types compost additions with reduced tillage or with annual ploughing had the largest effect on Ks. Soil hydraulic behaviour was in reasonable agreement with soil pore size distribution (mean values varied from 19.5 to 237 μm) modified by tillage frequency and organo-mineral fertilization. Already the first 3 years of this study showed that use of organic matter, improved soil infiltration characteristics when annual ploughing was used. Also biennial ploughing showed promising results and may be a useful strategy for smallholders to manage these soils. 相似文献
11.
B. S. Sharratt 《Soil & Tillage Research》1996,38(3-4):239-250
Conservation tillage practices are intended to minimize soil erosion. Yet little is known concerning changes in physical properties of subarctic soils subject to tillage practices. This study ascertained whether physical properties of a newly cleared subarctic soil are altered after 7 years of continuous barley (Hordeum vulgare L.) using different tillage and straw management strategies. Tillage and straw treatments were established in 1983 near Delta Junction, Alaska, and consisted of conventional fall and spring disk, fall chisel plow, spring disk, and no-tillage. Tillage plots were split by straw management practices, which included straw and stubble, stubble only, and no straw or stubble. Soil samples were collected from the upper 0.15 m of the profile in the spring of 1990 to assess water content, bulk density, saturated hydraulic conductivity, dry aggregate and mechanical stability, penetration resistance, water retention, and particle size distribution. Percent non-erodible aggregates, mechanical stability, and penetration resistance were greater for no-tillage compared to conventional tillage, chisel plow, and spring disk. No-tillage soils were also typically wetter, denser, and had a greater hydraulic conductivity. The spring disk treatment was least susceptible to erosion and also conserved soil water compared with chisel plow. Straw maintained on the surface conserved water and promoted soil stability. 相似文献
12.
Ke Jin Wim M. Cornelis Donald Gabriels Wouter Schiettecatte Stefaan De Neve Junjie Lu Tineke Buysse Huijun Wu Dianxiong Cai Jiyun Jin Roger Harmann 《CATENA》2008
Soil erosion from agricultural lands is a serious problem on the Chinese Loess Plateau. In total, 28 field rainfall simulations were carried on loamy soils under different management practices, namely conventional tillage (CT), no till with mulch (NTM), reduced tillage (RT), subsoiling with mulch (SSM), subsoiling without mulch (SS), and two crops per year (TC), to investigate (i) the effects of different soil management practices on runoff sediment and (ii) the temporal change of runoff discharge rate and sediment concentration under different initial soil moisture conditions (i.e. initially dry soil surface, and wet surface) and rainfall intensity (85 and 170 mm h− 1) in the Chinese Loess Plateau. NTM was the best alternative in terms of soil erosion control. SSM reduced soil loss by more than 85% in 2002 compared to CT, and its effects on runoff reduction became more pronounced after 4 years consecutive implementation. SS also reduced considerably the runoff and soil loss, but not as pronounced as SSM. TC resulted in a significant runoff reduction (more than 92%) compared to CT in the initial ‘dry’ soil, but this effect was strongly reduced in the initial ‘wet’ soil. Temporal change of runoff discharge rate and sediment concentration showed a large variation between the different treatments. In conclusion, NTM is the most favorable tillage practices in terms of soil and water conservation in the Chinese Loess Plateau. SSM can be regarded as a promising measure to improve soil and water conservation considering its beneficial effect on winter wheat yield. 相似文献
13.
Impact of land‐use changes on soil hydraulic properties of Calcaric Regosols on the Loess Plateau,NW China 
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下载免费PDF全文 Miaozi Yu Lulu Zhang Xuexuan Xu Karl‐Heinz Feger Yanhui Wang Wenzhao Liu Kai Schwärzel 《植物养料与土壤学杂志》2015,178(3):486-498
Vegetation restoration efforts (planting trees and grass) have been effective in controlling soil erosion on the Loess Plateau (NW China). Shifts in land cover result in modifications of soil properties. Yet, whether the hydraulic properties have also been improved by vegetation restoration is still not clear. The objective of this paper was to understand how vegetation restoration alters soil structure and related soil hydraulic properties such as permeability and soil water storage capacity. Three adjacent sites with similar soil texture, soil type, and topography, but different land cover (black locust forest, grassland, and cropland) were selected in a typical small catchment in the middle reaches of the Yellow River (Loess Plateau). Seasonal variation of soil hydraulic properties in topsoil and subsoil were examined. Our study revealed that land‐use type had a significant impact on field‐saturated, near‐saturated hydraulic conductivity, and soil water characteristics. Specifically, conversion from cropland to grass or forests promotes infiltration capacity as a result of increased saturated hydraulic conductivity, air capacity, and macroporosity. Moreover, conversion from cropland to forest tends to promote the creation of mesopores, which increase soil water‐storage capacity. Tillage of cropland created temporarily well‐structured topsoil but compacted subsoil as indicated by low subsoil saturated hydraulic conductivity, air capacity, and plant‐available water capacity. No impact of land cover conversion on unsaturated hydraulic conductivities at suction > 300 cm was found indicating that changes in land cover do not affect functional meso‐ and microporosity. Our work demonstrates that changes in soil hydraulic properties resulting from soil conservation efforts need to be considered when soil conservation measures shall be implemented in water‐limited regions. For ensuring the sustainability of such measures, the impact of soil conversion on water resources and hydrological processes needs to be further investigated. 相似文献
14.
耕作方式对耕层土壤结构性能及有机碳含量的影响 总被引:25,自引:2,他引:23
为了寻求能够提高土壤结构稳定性的耕作模式,在陇中黄土高原半干旱区连续7年的定位试验研究基础上,采用常规分析方法(湿筛法、重铬酸钾容量法、环刀法),研究了不同耕作方式对耕层土壤结构性能及有机碳含量的影响.结果表明:与传统耕作(T)相比,免耕无覆盖(NT)、传统耕作+秸秆还田(TS)和免耕+秸秆覆盖(NTS)3种保护性耕作方式均能不同程度地增加耕层土壤的有机碳和不同粒径水稳性团聚体的含量,其中免耕+秸秆覆盖(NTS)处理效果最佳.在0~10 cm土层中,NTS处理的土壤容重低、孔隙度大,土壤结构得到了较大改善.不同耕作方式下0~5 cm、5~10 cm和10~30 cm土层粒径1~0.5 mm水稳性团聚体的含量最高,粒径>0.25 mm水稳性团聚体含量与有机碳含量和孔隙度呈显著正相关,与容重呈显著负相关. 相似文献
15.
秸秆和地膜覆盖条件下玉米农田土壤有机碳组分生长季动态 总被引:2,自引:0,他引:2
基于黄土高原8 a的春玉米覆盖定位试验,研究了秸秆和地膜覆盖下土壤有机碳、微生物量碳、潜在可矿化碳及颗粒有机碳在作物不同生育期的季节变化特征,探讨旱作农田不同碳组分对地表覆盖的响应规律。结果表明:1)秸秆和地膜覆盖下土壤有机碳及其各组分含量在玉米生长期间总体呈苗期下降、拔节期上升、大喇叭口—抽雄期下降、灌浆和收获期回升的变化趋势。2)与不覆盖对照相比,秸秆覆盖在大部分作物生育期均显著提高了土壤有机碳各组分含量,有助于培肥地力和土壤固碳;而地膜覆盖在作物生育后期导致土壤有机碳及各组分含量显著下降。3)秸秆覆盖下表层土壤颗粒有机碳对总有机碳变化具有重要贡献,地膜覆盖后土壤有机碳变化可能主要来自于潜在可矿化碳和颗粒有机碳,而土壤微生物量碳相对含量在不同处理间差异不大。4)对照和地膜覆盖处理土壤潜在可矿化碳和颗粒有机碳的相对含量在大喇叭口—抽雄期均有显著下降,而秸秆覆盖下两种组分的相对含量则保持平稳,表明秸秆覆盖对生育后期土壤潜在可矿化碳和颗粒有机碳有重要的补给作用。总之,黄土高原的春玉米田秸秆覆盖具有明显的提升土壤有机碳及组分含量的作用,地膜覆盖则无明显效果,且在春玉米生育后期降低了土壤总有机碳及各组分的含量。 相似文献
16.
不同耕作措施对旱地作物生育期农田耗水结构和水分利用效率的影响 总被引:7,自引:4,他引:3
陇中黄土高原旱农区降水有限、水分利用效率低下是导致该区作物生产力水平低而不稳的主要原因。发展保护性耕作是保护水土资源、提高水分利用效率的重要途径。为揭示耕作措施影响水分利用效率的机制,2015—2016年在陇中黄土高原旱农区研究了不同耕作措施对土壤棵间蒸发、农田耗水量、作物蒸腾量、棵间蒸发与蒸散的比例、产量及水分利用效率的影响。试验设置传统耕作(T)、免耕秸秆覆盖(NTS)、免耕(NT)、传统耕作+秸秆翻入(TS)、传统耕作+覆膜(TP)、免耕覆膜(NTP)6个处理,春小麦和豌豆年间轮作。结果表明:(1)春小麦和豌豆全生育期棵间蒸发量NTS、TP、NTP比T显著减少6.52%~50.81%,NTS降低棵间蒸发量的作用主要在小麦开花后和豌豆结荚后,地膜覆盖在各个生育时期基本上都显著减少了棵间蒸发。(2)NTS对全生育期耗水量无显著影响,NTP的耗水量只在小麦地显著高于T。相比T,NTS显著提高了小麦开花-收获和豌豆结荚-收获期间的阶段耗水量及其占总耗水的比例。(3)NTS、TP、NTP均显著提高了春小麦和豌豆的蒸腾量,降低了田间的蒸发占蒸散的比例,降低了水分的无效损耗。(4)各年份春小麦和豌豆的产量NTS、TP、NTP比T提高了7.64%~62.79%,水分利用效率比T提高了0.43%~50.88%。因此,在陇中黄土高原旱农区,免耕秸秆覆盖、地膜覆盖等保护性耕作措施均能提高水分利用效率及小麦和豌豆的产量。免耕秸秆覆盖通过降低作物生长后期棵间蒸发量,提高作物生长后期耗水量,降低蒸发与蒸散的比例,从而提高春小麦和豌豆的水分利用效率及产量。而地膜覆盖处理主要是通过减少全生育期棵间蒸发量,增加作物全生育期蒸腾量,降低蒸发与蒸散的比例,从而实现作物水分高效利用,提高作物产量。 相似文献
17.
覆盖方式对玉米农田土壤水分、作物产量及水分利用效率的影响 总被引:10,自引:0,他引:10
为了加深对地面覆盖措施保墒增产机理的认识,通过大田试验,对黄土高原南部旱塬区秸秆和地膜两种覆盖方式下玉米农田土壤水分动态、作物产量形成和水分利用效率进行了分析。结果表明:在试验年份,与不覆盖相比,秸秆覆盖后玉米生育期内土壤储水量提高了5.2%~8.4%(P<0.05),籽粒产量和水分利用效率分别降低了7.8%和3.5%;而地膜覆盖下土壤储水量的差异不显著,但显著提高了产量构成指标,其籽粒产量和水分利用效率分别较对照提高了14.1%和10.6%(P<0.05),显示后者抑制土表蒸发所增加的土壤水分更多地、更有效地被作物根系吸收利用了。从产量形成和水分利用效率角度分析,本地区旱作玉米农田使用地膜覆盖有较好的保墒增产效果。 相似文献
18.
土壤碳库是陆地生态系统碳库的重要组成部分,对维持全球碳平衡及气候变化具有重要作用,其变化除了受气候和环境因素的影响外,还受农业耕作措施的影响。为研究长期保护性耕作措施对黄土高原陇东地区玉米(Zea mays L.)-小麦(Triticum aestivum L.)-箭筈豌豆(Vicia sativa L.)轮作系统土壤碳库及碳库变化的影响,利用已进行16年传统耕作(T)、传统耕作+秸秆还田(TS)、免耕(NT)、免耕+秸秆还田(NTS)的保护性耕作定位试验,探究0—200 cm土层土壤全碳、有机碳、易氧化有机碳、碳库指数、碳库管理指数、碳库活度指数的变化。结果表明:连续进行16年保护性耕作措施能够显著增加0—5 cm土层土壤有机碳及易氧化有机碳含量(P0.05),对深层土壤有机碳和易氧化有机碳影响不显著,相比T,TS、NT、NTS处理能够使土壤有机碳含量分别升高59.74%,58.43%,80.56%,使易氧化有机碳含量分别升高49.80%,49.65%,53.17%。保护性耕作措施对土壤碳库变化的影响随土层深度改变,其中TS、NT和NTS处理土壤碳库指数在0—10 cm土层显著高于10—20 cm土层,而土壤碳库活度指数和碳库管理指数在10—20 cm土层显著高于0—10 cm土层,土壤易氧化有机碳含量是决定土壤碳库活度指数和土壤碳库管理指数变化的主要原因。通过16年的长期试验证明,免耕+秸秆还田处理是提升农田表层土壤碳库及稳定性的有效措施,研究结果可为探讨土壤固碳机理、优化黄土高原地区农田管理措施提供理论指导。 相似文献
19.
为分析陇中黄土高原沟壑区不同保护性耕作措施的贮水效果,本研究利用春小麦/豌豆(W/P)、豌豆/春小麦(P/W)轮作的长期定位试验,分别设置传统耕作(T)、免耕(NT)、传统耕作秸秆覆盖(TS)和免耕覆盖(NTS)4种耕作措施,以当地月平均气温、月降水量、月平均辐射量、月平均蒸发量、月作物耗水量为输入因子,以月土壤贮水量为输出,建立基于长短期记忆(Long Short-Term Memory,LSTM)神经网络的土壤贮水量预测模型,并对该模型的有效性进行评估。研究结果表明:1)基于LSTM神经网络建立的土壤贮水量模型对陇中黄土高原沟壑区保护性耕作下土壤贮水量预测具有较好的适用性,模型模拟结果的平均均方根误差为7.76 mm,平均绝对误差为6.95 mm,相对误差控制在-5%~+5%的范围内。2) P/W轮作序列中各处理的土壤贮水量均比W/P轮作序列增加1.09%~1.43%。3)不同轮作序列,NTS处理的贮水效果均优于其他3种耕作措施,在W/P轮作序列中,NTS处理的年均土壤贮水量比T、NT和TS分别增加2.89%、1.70%和2.46%;在P/W轮作序列中,NTS处理的年均土壤贮水量比T、NT和TS分别增加3.03%、1.91%和2.57%。4)不同降水年型,NTS处理的土壤贮水量最高,且干旱年效果更加显著,其中丰水年NTS处理的土壤贮水量比T、NT和TS平均增加2.71%、1.48%和2.19%,而干旱年平均增加3.97%、2.54%和3.64%。5)保护性耕作措施的贮水效果随季节发生变化,作物生长前期(3-5月)保护性耕作措施的贮水优势较为明显,进入作物生长旺盛期(5-6月)保护性耕作措施与传统耕作的贮水效果差异不显著,而作物生长后期(7月)保护性耕作措施较传统耕作土壤贮水量明显增加。基于LSTM神经网络模拟环境下免耕覆盖的贮水保墒效果最好,为陇中黄土高原沟壑区最适宜的保护性耕作措施。 相似文献