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排序方式: 共有2684条查询结果,搜索用时 15 毫秒
1.
幅宽自动控制清秸防堵装置设计与试验   总被引:1,自引:0,他引:1  
针对免耕播种机在进行玉米秸秆全量粉碎还田作业时,清秸防堵装置存在清秸幅宽、秸秆抛掷距离不合理和幅宽稳定性差等问题,设计了一种幅宽自动控制的清秸防堵装置。建立清秸幅宽数学模型,确定影响作业幅宽和漏清区域的主要工作参数和各参数的取值范围;运用S型压力传感器和电动直线推杆协同作用设计幅宽自动控制系统;通过正交试验设计和EDEM离散元仿真试验确定清秸盘的最优工作参数组合,并进行田间试验,验证自动控制系统和装置的作业性能。结果表明,影响星齿凹盘式清秸防堵装置作业幅宽和漏清区域的主要工作参数为清秸盘间距、工作偏角和工作倾角,通过仿真试验得到最优参数组合为90 mm、30°和15°;自动控制系统通过监测清秸盘对地压力实时调节其入土深度,从而调控其作业幅宽,可有效提高幅宽稳定性。田间试验表明,该装置苗带清秸率、秸秆横向移动最大距离和幅宽稳定性系数分别为92.3%、40.2 mm和92.1%,满足免耕播种作业农艺和技术要求。  相似文献   
2.
There are few reliable data sets to inspire confidence in policymakers that soil organic carbon (SOC) can be measured on farms. We worked with farmers in the Tamar Valley region of southwest England to select sampling sites under similar conditions (soil type, aspect and slope) and management types. Topsoils (2–15 cm) were sampled in autumn 2015, and percentage soil organic matter (%SOM) was determined by loss on ignition and used to calculate %SOC. We also used the stability of macroaggregates in cold water (WSA) (‘soil slaking’) as a measure of ‘soil health’ and investigated its relationship with SOC in the clay‐rich soils. %SOM was significantly different between management types in the order woodland (11.1%) = permanent pasture (9.5%) > ley‐arable rotation (7.7%) = arable (7.3%). This related directly to SOC stocks that were larger in fields under permanent pasture and woodland compared with those under arable or ley‐arable rotation whether corrected for clay content (F = 8.500, p < .0001) or not (F = 8.516, p < .0001). WSA scores were strongly correlated with SOC content whether corrected for clay content (SOCadj R2 = .571, p < .0001) or not (SOCunadj R2 = 0.490, p = .002). Time since tillage controlled SOC stocks and WSA scores, accounting for 75.5% and 51.3% of the total variation, respectively. We conclude that (1) SOC can be reliably measured in farmed soils using accepted protocols and related to land management and (2) WSA scores can be rapidly measured in clay soils and related to SOC stocks and soil management.  相似文献   
3.
秸秆条带捡拾粉碎深埋装置设计与试验   总被引:1,自引:0,他引:1  
针对东北黑土区保护性耕作秸秆还田条件下,地表秸秆量大导致免耕播种过程易雍堵、播种后地温提升慢等问题,提出了一种秸秆条带捡拾粉碎深埋方式,通过捡拾粉碎机构将地表部分秸秆捡拾粉碎,由罩壳处筛孔完成土秆筛分,集秆螺旋器进行秸秆的定向集运,最后经运秸风机实现秸秆输送深埋。本文对粉碎刀结构、排列方式和转速等关键参数进行确定,对粉碎刀轴的秸秆漏捡区域面积展开分析,通过理论分析和离散元单因素仿真试验明确了集秆螺旋器转速与其所受扭矩和秸秆运动速度之间的关系,初步确定了螺旋器转速为900~1100r/min,设计了开沟铲的结构参数,并利用离散元全因素仿真试验模拟了作业速度与开沟深度两因素间与表层土壤颗粒运动及开沟铲受力之间的关系,以作业速度、开沟深度和螺旋器转速为因素,秸秆深埋合格率为试验指标进行Box-Behnken试验。田间试验结果表明,当前进速度为3km/h、开沟深度为290mm、螺旋器转速为1000r/min时,其秸秆掩埋合格率为64.2%,其预测值约为67.4%,误差小于5%,满足设计需求。研究成果为东北黑土地保护性耕作推广提供了新的方案和技术支撑。  相似文献   
4.
ABSTRACT

Low productivity and energy use efficiency (EUE) of rice farming are the major concerns for agricultural sustainability in the Eastern Himalayan region of India. A field experiment on rice (Oryza sativa L.)-pea (Pisum sativum L) system was conducted for three consecutive years during 2012–15 in lowland ecosystem to assess the direct and residual impact of tillage and residue management (RM) practises on productivity and sustainability. Significantly higher grain yield of rice was achieved under no-till (NT) than minimum tillage (MT) and conventional tillage (CT). Among RM practises, 50% NPK + green leaf manure, 50% NPK + weed biomass and 50% NPK + in-situ residue retention recorded significantly higher mean grain yields than application of 50% NPK and 100% NPK without residues. Residual effect of MT in preceding rice gave significantly higher green pod yield of succeeding pea than NT and CT. The system EUE was significantly higher under MT (rice)-NT (pea) compared to those of NT-NT and CT-NT systems. The sustainable yield index of rice and pea was maximum under MT-NT followed by NT-NT. Thus, NT/MT with suitable RM practises is a pertinent strategy for sustainable productivity of rice-pea system in the Eastern Himalayas and in similar adjoining regions.  相似文献   
5.
ABSTRACT

Conversion of grassland to cropland is widely reported to deplete soil organic carbon (SOC) largely due to tillage effects on the decomposition of SOC. However, most studies report on long-term changes in SOC following the conversion and little is known about the changes in the short term. Net ecosystem carbon budget (NECB) measures the difference between total C input (i.e., manure, above- and below-ground plant residues) and C loss through heterotrophic respiration (RH). However, most studies that report temporal SOC do not report other components of the NECB like RH, total C inputs and often do not include the cumulative annualized change of these components. This review evaluated the change in C input, RH, NECB and SOC after conversion of permanent/continuous grassland to cropland within 5 years after the conversion. We also reviewed and compared no-tillage and conventional tillage on SOC storage and accumulation. Total C input was higher in grassland than cropland largely due to high root biomass, as opposed to aboveground residue, and therefore grassland tended to have higher NECB. Despite higher NECB in grassland, the SOC stocks in cropland (cornfield) converted from grassland were greater than that in continuous grassland within first 2–3 years of conversion. The combination of manure C addition and tillage in cropland showed potential to maintain NECB and increase SOC. Within the continuous grassland C addition alone increased NECB but did not result in a corresponding increase in SOC. Residue retention and manure addition are recognized as good practices for increasing SOC, this study however, shows that combining them with occasional tillage, especially in managed grasslands, could increase the rate of SOC storage in soils.  相似文献   
6.
The tillage system, which joins soil tillage, fertilisation, and seed sowing in one pass of a machine, is rarely used in cereal cultivation. This research aimed to study whether strip-till and conventional tillage (post-harvest ripping and mixing of stubble, ploughing, pre-sowing fertilisation, and seedbed preparation) differ in plant density, yield components, and grain yield of winter barley cultivated on Cambisol in a region with low rainfall, the annual average is about 500?mm. To reach this aim, a two-year, large-plot experiment was conducted in a production field. The soil within the field was spatially variable in texture, moisture, and chemical and biological properties, CV 2.3% do 29.6%. Strip-till had lower within-field spatial variability of winter barley grain yield than conventional tillage. The standard deviation was 0.36?t?ha?1, 0.67?t?ha?1 in the first year and 0.12?t?ha?1, 0.30?t?ha?1 in the second year, respectively. During the period of limited rainfall, strip-till had greater uniformity of plants after emergence; after the winter with low air temperature and a low amount of snow, it had greater plant density. Thus, strip-till can reduce variability of plants and their yield within a field, especially in adverse environmental conditions.  相似文献   
7.
8.
基于感知价值的东北黑土区农户保护性耕作技术采用行为   总被引:1,自引:1,他引:0  
为破解保护性耕作技术推广困局,本研究基于感知价值理论构建了农户保护性耕作技术采用行为模型,并运用结构方程模型对黑龙江省典型黑土区的733份农户调研数据展开实证研究。结果表明:农户保护性耕作技术采用感知价值是感知利益和感知风险权衡的结果,感知利益和感知风险对感知价值分别有正向和负向影响;感知利益和风险由多个维度构成,各维度感知利益和风险对总体感知利益和风险的影响程度分别为:感知经济利益感知生态利益感知社会利益;感知技术风险感知经济风险感知情境风险;感知利益、感知风险、感知价值与技术采用意愿和行为存在直接和间接的影响关系,感知利益对感知价值和技术采用意愿的影响感知风险对二者的影响,但感知风险对感知行为的影响感知利益对其的影响。鉴于此,从提升农户保护性耕作技术采用利益感知和降低风险感知的角度提出建议,引导东北黑土区农户采用保护性耕作技术。  相似文献   
9.
【目的】针对我国长江中下游地区稻麦轮作区常年浅耕与不合理施肥导致的土壤犁底层增厚与土壤板结的问题,研究深耕(打破部分犁底层)与施肥方式对稻田土壤容重、土壤紧实度、土壤水分渗漏量、氮素淋溶量及氮素形态的影响,阐明稻田氮素淋溶量与耕作、施肥方式的响应机制,为稻田合理耕层构建提供理论依据。【方法】(1)基于2015年安徽省舒城县设置两种耕作方式(旋耕12 cm、深翻20 cm)、3种等氮量施肥方式(仅施化肥处理T1、秸秆还田配施化肥处理T2、有机与无机肥配施处理T3)的田间定位试验,2019—2020年监测土壤容重与紧实度以及稻季水分渗漏与氮素淋溶量。(2)通过原状土柱模拟试验,研究深翻30 cm(打破犁底层)对稻田水分渗漏量的影响。【结果】(1)田间试验结果表明,深翻20 cm较旋耕12 cm降低了耕层土壤容重与紧实度,但没有显著增加水稻生育期的水分渗漏量,仅在分蘖期增加7.4%,孕穗期之后无显著影响。(2)土柱试验结果显示,深翻30 cm(打破犁底层)水分渗漏量较旋耕12 cm和深翻20 cm显著增加,淹水时分别增加19.0%与11.0%,非淹水时分别增加23.0%与21.5%。(3)田间试验水分渗漏液中的氮素主要以硝态氮的形式存在,T3较T1和T2处理在水稻进入孕穗期后显著降低渗漏液中硝态氮的浓度;各施肥处理间铵态氮浓度差异不显著。(4)从整个水稻生育期看,两种耕作方式对氮素淋溶量影响不显著,而3种施肥方式下氮素淋溶量存在明显差异,T3处理降低了氮素淋溶量。深翻条件下T1、T2与T3处理氮素淋溶量分别为10.69、11.74和9.14 kg N·hm-2,旋耕条件下分别为9.83、11.21和8.58 kg N·hm-2。【结论】深翻20 cm可以改善土壤物理性状,但不会增加土壤水分渗漏及氮素淋溶;相同耕作方式下,有机与无机肥配施不会增加土壤水分渗漏与氮素淋溶。因此,在长江中下游黏质且犁底层厚(如红黄壤型)的水稻土区,部分打破犁底层,有机与无机肥配施,可构建深厚肥沃的耕作层,且不会增加水分渗漏和氮素的淋溶。  相似文献   
10.
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