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1.
土层厚度对紫色土坡地生产力的影响 总被引:12,自引:0,他引:12
通过紫色土坡地土层厚度的调查与不同土层厚度的小区对比试验,研究紫色土薄层坡地的生产力特性. 结果表明,约73%的紫色土坡耕地土层厚度为20-60 cm.土层厚度是紫色土生产力的基本限制条件.土层越薄, 作物株高、生物量和产量愈低,生产力愈低;土层越厚,生物量、产量愈高,生产力愈高,土层厚度的影响在玉米季尤 为突出,20 cm、40 cm小区夏玉米产量仅为60 cm小区的50%、74%,为80 cm小区的28%、40%,100 cm小区的23%、34%.当土壤厚度超过60 cm,小麦、玉米的株高、生物量及根重差异不显著,而土壤蓄水可抵御紫色丘陵区连续20 d的夏旱,因此,可初步判定60 cm土层为紫色土生产力临界土层.60cm以上厚度的紫色土可维持基本稳定的生产力水平. 相似文献
2.
沿海淤泥质滩涂是中国重要的耕地后备资源之一,滩涂围垦新增的大量耕地资源的生产潜力能反映滩涂土壤粮食安全保障能力大小。本文以江苏省如东县滩涂围垦区为例,在现有的光温水气候生产潜力模型的基础上,引进基础地力贡献率和盐分限制因子作为土壤有效性系数,构建沿海地区土地生产潜力模型,并通过水稻和小麦产量对模型结果进行初步验证。研究表明:该模型具有一定可行性。滩涂围垦区水稻产量土壤基础地力贡献率为55%~59%;小麦基础地力贡献率为50%~80%。未脱盐的1982年滩涂围垦区水稻和小麦产量受到盐分阻碍的系数分别为0.73和1.00。2007年垦区由于盐分太高不能种植水稻,小麦产量受到盐分阻碍系数为0.35。未脱盐的1982年滩涂垦区土壤基础地力修正后的水稻和小麦土地生产潜力分别为12235.84和6502.23 kg/hm2;土壤盐分修正后的土地生产潜力分别为15677.42和10329.39 kg/hm2;土壤基础地力和盐分共同修正后的土地水稻和小麦生产潜力分别为8934.97和6502.23 kg/hm2。与实地调查的水稻产量(9750 kg/hm2)和小麦生产潜力(6000 kg/hm2)相比,目前土地生产力远小于盐分限制下的土地生产潜力,与基础地力和盐分双重限制下的土地生产潜力接近,改善土壤施肥技术可以进一步提高土地生产力。 相似文献
3.
Yansui LIU Xiaoyu ZHENG Yongsheng WANG Zhi CAO Yuheng LI Wenhao WU Zhengjia LIU Huaihua LIU Rui LI 《地理学报(英文版)》2018,28(12):1896-1906
Land consolidation engineering is one of the very important ways to improve the quality of farmland and the level of agricultural productivity. Studies of land consolidation and crop cultivation still mainly focus on single land functional optimization or crop breeding and yields. However, whether the improved crop varieties were sown on healthy and fertile soils is still a question. This paper introduces new ideas and engineering measures for sandy land rehabilitation and modern agricultural development in the Mu Us Sandy Land, Shaanxi Province, Western China. The important roles of particles and aggregates in soil reconstruction were confirmed following three innovative microscopic theories, including micro-structure, micro-morphology and micro-mechanism. New soil was constructed based on the physical complementarity of sandy, clay and loess particles in the Yulin area, northern Shaanxi Province. Field experiments were carried out to study the appropriate mixture ratio of different soils and their suitability for different crops. The improved crop varieties were sown on healthy and fertile soils, which were chosen by coupling according to its soil ecological suitability and crop physiological adaptability. The fertility improvement practices in the new constructed soils with different crops integrated water and fertilizer management measures, which were also provided in the experiment. Overall, an integrated land optimization configuration with improved and optimized crop variety selection was suggested for engineering sandy land-oriented consolidation from the soil particles to the agricultural system. 相似文献
4.
东北黑土区容许土壤流失量研究(英文) 总被引:1,自引:0,他引:1
Soil loss tolerance(T) is the maximum rate of annual soil erosion that is tolerated and still allows a high level of crop productivity to be sustained economically and indefinitely.In the black soil region of Northeast China,an empirically determined,default T value of 200(t/km2?a) is used for designing land restoration strategies for different types of soils.The ob-jective of this study was to provide a methodology to calculate a quantitative T for different black soil species.A field investigation was conducted to determine the typical soil profiles of 21 black soil species in the study area and a quantitative methodology based on a modified soil productivity index model was established to calculate the T values.These values,which varied from 68 t/km2?a to 358 t/km2?a,yielded an average T value of 141 t/km2?a for the 21 soil species.This is 29.5% lower than the current national standard T value.Two significant factors that influenced the T value were soil thickness and vulnerability to erosion.An ac-ceptable reduction rate of soil productivity over a planned time period of 1% is recommended as necessary for maintaining long-term sustainable soil productivity.Compared with the cur-rently used of regional unified standard T value,the proposed method,which determines T using specific soil profile indices,has more practical implications for effective,sustainable management of soil and water conservation. 相似文献
5.
东北黑土区是中国重要的粮食生产基地,也是中国气候变化最敏感的地区之一。然而,气候变化背景下东北黑土区气候及物候变化对农业生产力的综合影响并不清晰,未来农业生产风险评估的定量化程度不够,风险等级制定缺乏依据。本文借助遥感产品、气候资料和模拟数据等资料,综合运用多元线性回归、相关分析及干旱危险性指数等方法,探究东北黑土区作物物候动态及其气候响应特征,辨识气候与物候变化对农业生产的复合效应及未来可能风险。结果表明:① 2000—2017年东北黑土区29.76%的区域作物生长季开始期呈显著延后趋势,16.71%的区域作物生长季结束期呈提前态势,生长季开始期受气温的影响范围广,且滞后时间长;生长季结束期与前期气候变化关系更加密切,且带状差异性响应格局尤其明显。② 气候变化和物候期改变对作物生产的解释能力较生长季同期气候变化的解释能力增加了70.23%,解释面积扩大了85.04%。③ RCP8.5情景下东北黑土区粮食总产量呈现上升趋势,粮食生产风险表现出“南增北减”的演变特征,风险区面积不断扩大,全球温升2.0 ℃时,松嫩黑土亚区南部粮食减产量可能达到10%。研究有助于深入认识气候—物候—作物生产的关联机理及未来粮食生产风险,对制定气候变化应对策略,保障国家粮食安全具有重要意义。 相似文献
6.
近17年城镇用地扩展对粮食生产影响的定量评估研究--以江苏省常熟市为例 总被引:6,自引:2,他引:4
运用多源遥感数据,获得常熟市1984、1992、1999和2001年四个时期城镇建设用地状况矢量数据。利用土壤普查资料建立土壤空间和属性数据库。统计分析并借助水稻土生产力评价模型对17年来城镇建设用地扩展占用的水田生产力状况评价研究表明:1984~2001年的17年间,常熟市城镇建设用地扩展占用水田面积2438公顷,根据现有的生产管理水平估算,粮食年产量损失总量约2万t,城镇扩展损失水田以生产力水平中、高等级为主,损失水田平均产量达8160kg/hm^2。水稻土生产力指数模型(SPI)可以对常熟市水田土壤生产力进行合理地评价,可以用来估算在城镇建设用地扩展对水田土壤生产力和水稻产量造成的损失量。 相似文献
7.
在黑河流域干旱土纲中采集5个典型土壤剖面以研究该地区干旱土壤的演化。同时,为了了解土壤养分含量、土壤干旱化和土壤盐化的变化趋势,测定了高台县西北盐池地区主要盐土类型各剖面中的盐分含量和流域内主要土类中水分含量的分布。结果表明,干旱区内陆河流域土壤的退化主要表现为干旱化、盐渍化和土壤肥力的退化。在流域内干旱化随流域上中下游降水量和干燥度的变化而变化,土壤随距河流的距离及地下水位的高低而变化。流域内土壤从潜育土向雏形十、干旱雏形土和干旱土的方向变化。盐渍化与土壤水分含量和地下水位有关,并与水分的蒸发有密切的关系。在一定范围内,距水源越远,盐分含量一般越高。土壤肥力的退化表现为土壤有机质含量降低,阳离子代换量降低等理化性质的退化,这一退化过程是其它过程的综合反映。质地的退化虽受风沙化的影响,但与土壤的形成母质有一定的关系。 相似文献
8.
GAO Jiangbo LIU Lulu GUO Linghui SUN Dongqi LIU Wanlu HOU Wenjuan WU Shaohong 《地理学报(英文版)》2023,33(1):37-58
The black soil region of northeast China is a vital food base and is one of the most sensitive regions to climate change in China. However, the characteristics of the crop phenological response and the integrated impact of climate and phenological changes on agricultural productivity in the region under the background of climate change are not clear. The future agricultural risk assessment has been insufficiently quantified and the existing risk level formulation lacks a sound basis. Based on remote sensing products, climate data, and model simulations, this study integrated a logistic function fitting curvature derivation, multiple linear regression, and scenario simulation to investigate crop phenology dynamics and their climate response characteristics in the black soil region. Additionally, the compound effects of climate and phenology changes on agricultural production and possible future risks were identified. The key results were as follows: (1) From 2000 to 2017, 29.76% of the black soil region of northeast China experienced a significant delay in the start of the growing season (SOS) and 16.71% of the total area displayed a trend for the end of the growing season (EOS) to arrive earlier. The time lagged effects of the SOS in terms of the crop response to climatic factors were site and climatic parameter dependent. The influence of temperature was widespread and its effect had a longer lag time in general; (2) Both climatic and phenological changes have had a significant effect on the inter-annual variability of crop production, and the predictive ability of both increased by 70.23%, while the predictive area expanded by 85.04%, as compared to that of climate change in the same period of the growing season; (3) Under the RCP8.5 scenario, there was a risk that the future crop yield would decrease in the north and increase in the south, and the risk area was constantly expanding. With a 2.0℃ rise in global temperature, the crop yield of the southern Songnen black soil sub-region would reduce by almost 10%. This finding will improve our understanding of the mechanisms underlying climate change and vegetation productivity dynamics, and is also helpful in the promotion of the risk management of agrometeorological disasters. 相似文献
9.
土壤盐渍化遥感应用研究进展 总被引:31,自引:4,他引:31
文章从地面数据的调查、盐渍土影象的目视判读特征、光谱特征和土壤盐渍化区域的植被特征以及多光谱、高光谱遥感技术等方面综述国内外应用遥感数据探测土壤盐渍化程度及其制图的研究。利用数字图象并结合野外调查数据进行目视解译和计算机自动解译、图象变换提取盐渍土信息;结合G IS方法在分类中加入非遥感数据来提高分类精度;在研究盐渍土的光谱特征的基础上应用高光谱技术定量或半定量地提取盐渍土信息。这都是制定综合治理措施、决定土地利用方向的关键,也是进行区域土壤盐渍化动态预报的重要依据。 相似文献
10.
Rice is the main food crop in densely populated Bangladesh. Regional climatic variations can play an important role in rice productivity. For example, excessive heat or extremely cool conditions disrupt normal plant physiological processes and cause plant injury which, in turn, results in reduction of yield. In this study, the climatic crop productivity model YIELD has been applied to calculate rice productivity for the boro rice growing season (December/January-May) in Bangladesh under changing climatic conditions. The model estimates climatic influences on various rice plant-growth parameters. YIELD was tuned and validated to Bangladesh's environment to represent appropriate agroecological conditions. The model was run using long-term average climate data of 12 meteorological stations located in the major rice-growing regions in Bangladesh to establish baseline estimates of yield. For the climate change study, 20 scenarios were created by synthetically fluctuating thermal and solar climates in Bangladesh. Study results show that per 1° C increase in growing season mean air temperature, boro rice yield was reduced by 4.6%. It was also found that each 10% increase in incident solar radiation resulted in a 6.5% increase of boro rice yield in Bangladesh. 相似文献
11.
天山北坡绿洲不同土地利用对土壤特性的影响 总被引:35,自引:1,他引:34
以天山北坡三工河流域冲积平原型绿洲作为研究区,选择12种土地利用系统作为土地利用方式的具体体现,通过采集不同土地利用系统上层土壤 (0~20 cm) 和下层土壤 (20~40 cm) 样方,分析不同土地利用系统对主要土壤特性的影响。研究结果表明:(1) 土地利用系统对砂、粉砂和粘土粒度分布的影响显著。绿洲土壤砂含量随着土地种植年限增加有降低的趋势,而粉砂和粘土含量有增加的趋势;(2) 绿洲土地利用系统对土壤pH值和养分变异的影响显著。人类强干扰的土地利用系统的土壤养分普遍高于人类影响较弱的土地利用系统,上层土壤养分普遍高于下层土壤,而且随着人类干扰时间的延长土壤养分呈整体增加趋势;(3) 人类活动强干扰的土地利用系统土壤盐分含量低于人类活动影响较弱的土地利用系统;人类活动作用时间长的土地利用系统土壤盐分含量总体低于人类活动作用时间短的土地利用系统;(4) 绿洲土壤总体表现为"碳汇"的趋势,土壤质量逐步得到提高,其最主要的原因在于合理的土地利用与科学的管理方式结合;绿洲土壤的"碳汇"积极响应了减轻温室气体排放的东京协定 。 相似文献
12.
Land consolidation engineering is one of the very important ways to improve the quality of farmland and the level of agricultural productivity. Studies of land consolidation and crop cultivation still mainly focus on single land functional optimization or crop breeding and yields. However, whether the improved crop varieties were sown on healthy and fertile soils is still a question. This paper introduces new ideas and engineering measures for sandy land rehabilitation and modern agricultural development in the Mu Us Sandy Land, Shaanxi Province, Western China. The important roles of particles and aggregates in soil reconstruction were confirmed following three innovative microscopic theories, including micro-structure, micro-morphology and micro-mechanism. New soil was constructed based on the physical complementarity of sandy, clay and loess particles in the Yulin area, northern Shaanxi Province. Field experiments were carried out to study the appropriate mixture ratio of different soils and their suitability for different crops. The improved crop varieties were sown on healthy and fertile soils, which were chosen by coupling according to its soil ecological suitability and crop physiological adaptability. The fertility improvement practices in the new constructed soils with different crops integrated water and fertilizer management measures, which were also provided in the experiment. Overall, an integrated land optimization configuration with improved and optimized crop variety selection was suggested for engineering sandy land-oriented consolidation from the soil particles to the agricultural system. 相似文献
13.
14.
黄土高原作物产量及水土流失地形分异模拟 总被引:5,自引:0,他引:5
退耕坡地是近年来黄土高原整治生态环境和控制水土流失的有效措施。基于WIN_YIELD 软件, 以延安燕沟流域为例,利用2005 年延安站的逐日气象数据和燕沟流域地貌、土壤及土地利用等资料, 模拟分析了不同地形高程、坡度和坡向条件下不同作物产量及水土流失的分异特征。结果表明: 在黄土高原, 地形坡度是影响作物产量、径流和泥沙的重要因素, 地形高程和坡向的影响普遍较微弱; 地形坡度越大, 作物产量越低, 高粱和玉米在坡度为25o 时的产量模拟值分别较0o 时下降15.44%和14.32%, 大豆、绿豆和马铃薯的下降幅度依次为5.26%、4.67%和3.84%; 产生径流和泥沙随地形坡度的增大而增大, 在坡度20o左右存在一个高值区间; 不同作物的水土保持效益由高到低依次为大豆、绿豆(豆类)、马铃薯、玉米和高粱; 坡度小于5o的坡耕地可以不进行梯田改造, 坡度大于15o 的坡耕地应及早实现退耕还林还草。 相似文献
15.
The soil-freezing characteristic curve (SFCC), which represents the relationship between unfrozen water content and sub-freezing temperature (or suction at ice-water interface) in a freezing soil, can be used for understanding the transportation of heat, water, and solute in frozen soils. In this paper, the soil freezing process and the similarity between the SFCC of saturated frozen soil and soil-water characteristic curve (SWCC) of unfrozen unsaturated soil are reviewed. Based on similar characteristics between SWCC and SFCC, a conceptual SFCC is drawn for illustrating the main features of soil freezing and thawing processes. Various SFCC expressions from the literature are summarized. Four widely used expressions (i.e., power relationship, exponential relationship, van Genuchten 1980 equation and Fredlund and Xing 1994 equation) are evaluated using published experimental data on four different soils (i.e., sandy loam, silt, clay, and saline silt). Results show that the exponential relationship and van Genuchten (1980) equation are more suitable for sandy soils. The simple power relationship can be used to reasonably best-fit the SFCC for soils with different particle sizes; however, it exhibits limitations when fitting the saline silt data. The Fredlund and Xing (1994) equation is suitable for fitting the SFCCs for all soils studied in this paper. 相似文献
16.
Philip J. Gersmehl 《The Professional geographer》1980,32(2):158-163
Most regional maps of soil productivity are based on the erroneous assumption that the soil series, the fundamental taxonomic unit, is also a homogeneous unit of productivity with consistent and predictable yields when compared with other series. This assumption may lead to significant errors in estimates of potential productivity, with profound implications for prime-land delimitation, tax assessment, zoning administration, and other policies that presently rely on published soil productivity ratings. 相似文献
17.
De-farming slope farmland has been an effective measure in recent years for the improvement of the eco-environment and the mitigation of soil and water loss on the Loess Plateau. This paper, taking the Yangou Basin as a case study and using day-by-day meteorological data of Yan’an station in 2005, simulated and analyzed the quantitative relation between crop yield, soil and water loss and topographic condition with the aid of WIN-YIELD software. Results show that: 1) topographic gradient has important influence on crop yield. The bigger gradient is, the lower the crop yield. Yields of sorghum and corn decrease by 15.44% and 14.32% respectively at 25° in comparison to the case of 0°. In addition, yields of soya, bean and potato decrease slightly by 5.26%, 4.67% and 3.84%, respectively. The influences of topographic height and slope aspect on crop yield are slight. 2) Under the same topographic condition, different crops’ runoff and soil loss show obvious disparity. Topographic gradient has important influence on soil and water loss. In general, the changing trend is that the soil and water loss aggregates with the increase of gradient, and the maximal amount occurs around 20°. The influence of topographic height is slight. Topographic aspect has a certain effect, and the fundamental characteristic is that values are higher at the aspect of south than north. 3) Topographic gradients of 5° and 15° are two important thresholds. The characteristic about soil and water loss with the variation of topographic gradients show that: the slope farmland with gradient less than 5° could remain unchanged, and the slope farmland more than 15° should be de-farmed as early as possible. 相似文献
18.
以浙江省金衢盆地为例 ,探讨了我国南方山间盆地广泛分布的退化红砂土的特征 ,研究了退化红砂土在人为参与下土壤肥力的逆转及其与利用方式的关系 ,分析了各种利用方式下红砂土肥力性质的演变特征。 相似文献
19.
黄土丘陵沟壑区作物生产潜力影响因素分析——以王家沟流域为例 总被引:7,自引:3,他引:4
针对黄土丘陵沟壑区土壤侵蚀非常严重、作物产量低而不稳以及农业生产力水平低下的特点,本文首先分析了近几年来王家沟流域不同种类和不同年份作物生产力变化的特征,然后在地理信息系统(GIS)技术支持下,利用基于土壤侵蚀条件下的YIELD作物生产力模型并结合各作物的实际观测资料,从降雨量、气温等气象因素以及地膜覆盖、施肥、梯田等耕作措施两方面分析了该小流域作物生产力变化的原因,结果表明在气象因素(大气降水)和土壤侵蚀的共同影响下,土壤水分和养分的变化是影响该区域作物生产力变化的主要制约因素。 相似文献
20.
黄土丘陵沟壑区作物生产潜力影响因素分析——以王家沟流域为例 总被引:2,自引:0,他引:2
针对黄土丘陵沟壑区土壤侵蚀非常严重、作物产量低而不稳以及农业生产力水平低下的特点 ,本文首先分析了近几年来王家沟流域不同种类和不同年份作物生产力变化的特征 ,然后在地理信息系统 (GIS)技术支持下 ,利用基于土壤侵蚀条件下的YIELD作物生产力模型并结合各作物的实际观测资料 ,从降雨量、气温等气象因素以及地膜覆盖、施肥、梯田等耕作措施两方面分析了该小流域作物生产力变化的原因 ,结果表明在气象因素 (大气降水 )和土壤侵蚀的共同影响下 ,土壤水分和养分的变化是影响该区域作物生产力变化的主要制约因素。 相似文献