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101.
102.
分析了大伙房水库水体中氮、磷污染物来源及份额,结果表明:1992~2005年均入库总氮、总磷量分别为1731t和84t,总氮、总磷主要水库上游的的种植业、养殖业、林业和生活污水。 相似文献
103.
为应对太湖严峻的水体富营养化现状,从源头上降低面源污染负荷,基于物质流分析法与质量守恒原理,研究了常熟市辛庄镇农田生产-畜禽养殖系统的氮素流动通量、流动效率及环境负荷,并用实测值进行了参数校正. 结果表明:2000—2012年,辛庄镇农田生产子系统的单位面积氮素流动通量呈下降趋势,而畜禽养殖子系统的单位面积氮素流动通量则在42.5~50.9 kg/hm2范围内持续波动. 氮素利用率与氮素循环利用率均较低,氮素环境损失率较高,系统损失的氮素中有54.5%进入周围水体. 2000年以来,作物种植与畜禽养殖对辛庄镇环境氮负荷的贡献率分别在38.8%~50.2%与25.4%~35.8%之间波动. 辛庄镇农田施氮量为310.8 kg/hm2,人畜排泄氮量为61.1 kg/hm2,分别远高于全国平均值(197.2和18.6 kg/hm2). 过量施用化学氮肥与畜禽粪便的大量排放是辛庄镇环境氮负荷加重的主要原因. 辛庄镇高投入高产出的农业生产方式加大了太湖水环境修复的难度. 建议调整作物种植与畜禽养殖结构,推广科学施肥与生态养殖,将农田生产与畜禽养殖结合形成产业链,以此减轻氮素环境负荷. 相似文献
104.
Carlos Henrique Wachholz de Souza Walter Rossi Cervi Jansle Vieira Rocha Rubens Augusto Camargo Lamparelli 《Journal of Land Use Science》2017,12(6):457-476
In Brazil, the main biofuel crop is sugarcane, and with its rapid expansion, there is much debate about what land uses and land covers it is replacing, and what are the associated environmental and social impacts. Some argue sugarcane is mainly replacing cattle pasture, thus having minimal impacts on native vegetation and small-scale family farming. In contrast, others claim sugarcane is replacing cropland traditionally under soybeans, rice, beans, and corn. Thus, food security is negatively affected and small-scale family farming livelihoods and culture are threatened. This is a proof-of-concept paper illustrating methods contributing toward the resolution of such debates. First we map land use and cover change in areas undergoing sugarcane expansion using satellite data from MODIS (Moderate Resolution Imaging Spectroradiometer); second, we test the hypothesis that sugarcane is replacing traditional annual crops using intensity analysis, via a case study of land change in the municipality of Pedro Afonso, Tocantins in northern Brazil between the 2008–2013 crop years. Maps matched reference data with overall agreements between 87–91%. Intensity analysis confirmed sugarcane is replacing annual crops much more than cattle pasture and other land uses and covers, pointing to particular economic and social processes driving land change. 相似文献
105.
Wen Wujun & Liang Hongming Research Center for Sustainable Development of Shandong Province Jinan China Yingda Science Technology Co. Ltd. Luneng Group Jinan China 《中国人口.资源与环境(英文版)》2005,3(3)
In recent years, genetic engineering technology has been playing a great role in improving crops. As far as property is concerned, transgenic crops are mainly classified into three types. One is anti-herbicide crops; next is anti-disease and anti-insect pest transgenic crops. The third is high added-value transgenic crops, such as insulin tomatoes China has cultivated. We have successfully expressed hepatitis B virus surface antigen genes in tomatoes and potatoes. Besides, scientists have al… 相似文献
106.
Enhancing the Ability of a Soil Moisture‐based Index for Agricultural Drought Monitoring by Incorporating Root Distribution 下载免费PDF全文
Hongkui Zhou Jianjun Wu Guangpo Geng Xiaohan Li Qianfeng Wang Tianjie Lei Xinyu Mo Leizhen Liu 《Journal of the American Water Resources Association》2017,53(6):1409-1423
Agricultural drought differs from meteorological, hydrological, and socioeconomic drought, being closely related to soil water availability in the root zone, specifically for crop and crop growth stage. In previous studies, several soil moisture indices (e.g., the soil moisture index, soil water deficit index) based on soil water availability have been developed for agricultural drought monitoring. However, when developing these indices, it was generally assumed that soil water availability to crops was equal throughout the root zone, and the effects of root distribution and crop growth stage on soil water uptake were ignored. This article aims to incorporate root distribution into a soil moisture‐based index and to evaluate the performance of the improved soil moisture index for agricultural drought monitoring. The Huang‐Huai‐Hai Plain of China was used as the study area. Overall, soil moisture indices were significantly correlated with the crop moisture index (CMI), and the improved root‐weighted soil moisture index (RSMI) was more closely related to the CMI than averaged soil moisture indices. The RSMI correctly identified most of the observed drought events and performed well in the detection of drought levels. Furthermore, the RSMI had a better performance than averaged soil moisture indices when compared to crop yield. In conclusion, soil moisture indices could improve agricultural drought monitoring by incorporating root distribution. 相似文献
107.
Large‐Scale Fine‐Resolution Hydrological Modeling Using Parameter Regionalization in the Missouri River Basin 下载免费PDF全文
Prasad Daggupati Debjani Deb Raghavan Srinivasan Dhanesh Yeganantham Vikram M. Mehta Norman J. Rosenberg 《Journal of the American Water Resources Association》2016,52(3):648-666
This study simulated crop and water yields in the Missouri River Basin (MRB; 1,371,000 km2), one of the largest river basins in the United States, using the Soil and Water Assessment Tool (SWAT) at a fine resolution of 12‐digit Hydrological Unit Codes (HUCs) using the regionalization calibration approach. Very few studies have simulated the entire MRB, and those that have developed were at a coarser resolution of 8‐digit HUCs and were minimally calibrated. The MRB was first divided into three subbasins and was further divided into eleven regions. A “head watershed” was selected in each region and was calibrated for crop and water yields. The parameters from the calibrated head watershed were extrapolated to other subwatersheds in the region to complete comprehensive spatial calibration. The simulated crop yields at the head watersheds were in close agreement with observed crop yields. Spatial validation of the aggregated crop yields resulted in reasonable predictions for all crops except dryland corn in a few regions. Simulated and observed water yields in head watersheds and also in the validation locations were in close agreement in naturalized streams and poor agreement in streams with high groundwater‐surface water interactions and/or reservoirs found upstream of the gauges. Overall, the SWAT model was able to reasonably capture the hydrological and crop growth dynamics occurring in the basin despite some limitations. 相似文献
108.
在各长期轮作施肥系统中,耕层土壤矿化培养过程的pH及剖面矿化势的变化,说明了长期不同的轮作和施肥方式引起土壤有机氮数量和性质的变化。pH变化具有一共同特征,在0~4 周,各处理间差异显著;而后期变化趋势趋于一致,向微碱性环境发展。各处理的剖面矿化势的变化反映了有机氮可矿化数量的改变。小麦连作施肥和苜蓿连作施肥均说明施用有机肥对土壤有机氮水平有较好的提高作用。粮豆轮作3 a对土壤供氮能力的提高作用大于粮饲轮作4 a和裸地处理。 相似文献
109.
在辽宁西部褐土上历时10 a的田间试验结果表明:氮肥对提高作物产量效果最好,平均增产率50%,平均每千克 N增产粮食21 kg。供试褐土富磷,试验前3 a施磷肥不显增产作用,之后增产明显,10 a平均增产率10.9%,平均每千克 P增产粮食47 kg。供试褐土富钾,连续10 a施钾肥不显增产作用。 在施用化肥基础上每年以60%收获产品直接堆腐回田,可比对应的化肥处理分别增产(10 a平均)40.6%(无肥对照)、19.5%(N肥基础)、12.1%(NP肥)和8.1%(NPK肥),平均年增产粮食(混合、烘干)分别为1.54、1.08、0.79、0.52 t/hm2。养分循环再利用的作物增产效益在试验的10 a中有着逐年增长的趋势,表明以堆肥形式循环回田养分的作物增产作用有着明显的残效叠加效应。 相似文献
110.