In the research, effects of straw returning to fields on soil temperature, water, volume-weight, porosity, trace elements, and organic matters were reviewed and countermeasures were proposed to promote straw returning...In the research, effects of straw returning to fields on soil temperature, water, volume-weight, porosity, trace elements, and organic matters were reviewed and countermeasures were proposed to promote straw returning on basis of straw resources and present status in Anhui Province.展开更多
Based on advances in returning rice and wheat straw to fields at home and abroad, environmental physical, chemical and ecological effects of returning rice and wheat straw to fields were analyzed. The results show tha...Based on advances in returning rice and wheat straw to fields at home and abroad, environmental physical, chemical and ecological effects of returning rice and wheat straw to fields were analyzed. The results show that returning straw to fields can enhance soil porosity, reduce soil bulk density, and increase the ca- pacity of soil to preserve water, fertilizer and temperature. Besides, it can improve the content of organic matter, nitrogen, phosphorus and potassium in soil, of which the increase of potassium content is the most obvious. Meanwhile, it can provide energy and nutrients for microorganisms in soil and change the activity of soil enzymes, of which it affects invertase most greatly and enhances the activity of ure- ase but has no effect on neutral phosphatase. In addition, it can enhance the total quantity of microorganisms in soil obviously, and the increase correlates positively with the quantity of straw returning to fields. Finally, returning straw to fields can promote the sustainable development of agriculture.展开更多
The effects of amount of green manure returned to field on yield and quality of flue-cured tobacco were studied by field experiment. The results showed that significant positive correlation existed between tobacco lea...The effects of amount of green manure returned to field on yield and quality of flue-cured tobacco were studied by field experiment. The results showed that significant positive correlation existed between tobacco leaf yield and small or moderate amount of green manure returned to field. Path analysis showed that moderate amount of green manure returned to field affected yield and quality of tobacco leaves, small green manure returned to field mainly affected leaf yield, while large amount of green manure returned to field mainly affected leaf quality. Therefore, the effect of moderate amount of green manure returned to field on yield and quality of tobacco leaves was best, and moderate amount of green manure returned to field was recommended in production of flue-cured tobacco.展开更多
From 2017 to 2018,the effects of winter planting of milk vetch on yield and partial productivity of nitrogen fertilizer of machine-transplanted double-cropping rice under straw returning were studied in Ningxiang city...From 2017 to 2018,the effects of winter planting of milk vetch on yield and partial productivity of nitrogen fertilizer of machine-transplanted double-cropping rice under straw returning were studied in Ningxiang city,Hunan Province.The results showed that the dry matter accumulation,effective panicle,yield and partial productivity of nitrogen fertilizer in the stem,leaf,panicle and aboveground parts of early and late rice treated with winter planting milk vetch and straw returning were signi ficantly higher than those treated with straw returning only.Among them,the effective panicles of early and late rice increased by 2.58%,3.18%(2017)and 5.22%,6.32%(2018),respectively.Yield increased by 11.85%,10.07%(2017)and 12.42%,10.92%(2018),annual partial productivity of nitrogen fertilizer increased by 10.90%(2017)and 11.66%(2018),respectively.In conclusion,winter planting milk vetch under straw returning is beneficial to increase dry matter accumulation,rice yield and partial productivity of nitrogen fertilizer in mechanized double cropping rice.展开更多
[Objectives]To alleviate the influence of meteorological conditions on soil environment(temperature and water content)and maintain high and stable grain yield.[Methods]Taking Sunzhen Experimental Station of Weinan Aca...[Objectives]To alleviate the influence of meteorological conditions on soil environment(temperature and water content)and maintain high and stable grain yield.[Methods]Taking Sunzhen Experimental Station of Weinan Academy of Agricultural Sciences as the experimental base,the effects of returning double-crop wheat and corn straw to field(Twm),returning single-crop corn straw to field(Tm),returning single-crop wheat straw to field(Tw)on soil temperature,water content,straw decomposition rate and nutrient release,soil organic matter and bulk density were studied systematically.[Results]Twm treatment could effectively alleviate the effects of meteorological conditions on soil temperature and water content.The decomposition rate of straw treated with Twm was 4.7%higher than that of Tm treatment,3.8%higher than that of Tw treatment,10.5%higher than that of Tm treatment,and the decomposition rate of straw showed a trend of"first fast,then slow and then fast".The release of nitrogen from straw was basically similar to that of straw decay,and the release of potassium and phosphorus increased at first and then remained basically unchanged.The release rate of potassium was the highest,followed by phosphorus and nitrogen.The content of soil organic matter in Twm treatment increased by 11.67%annually,an annual average of 0.998 g/kg.The soil bulk density of Twm treatment decreased by 0.058 g/cm^(3) annually,an annual average of 4.29%.The fundamental reason is that Twm treatment provides conditions(temperature,water content,nutrition)for microbial growth,reproduction,enzyme production and biochemical reaction,and increases the exchange capacity of soil and external water,heat,gas and fertilizer.[Conclusions]It is expected is to help people change their understanding of returning straw to field from"quick harvest"to"fertilizer transformation".展开更多
It is an important way for realizing sustainable development of sweet corn production to stabilize and improve soil fertility of cultivated land in sweet corn production region.Through the test of sweet corn straw dir...It is an important way for realizing sustainable development of sweet corn production to stabilize and improve soil fertility of cultivated land in sweet corn production region.Through the test of sweet corn straw directly returning to the field after 6seasons for 3years,the results showed that continuous single application of chemical fertilizer is not conducive to the stability of soil fertility and yield improvement,and implementation of straw returning could receive fertility,improve soil acidic conditions,and enhance the yield of sweet corn.Compared with before the test,the single application of chemical fertilizer increased soil available phosphorus,while the contents of soil organic matter,available nitrogen and available potassium decreased by 1.08,1.18 and 2.47mg/kg respectively,and the soil pH decreased by 0.15.Under the same fertilizer conditions,organic matter contents of single and double-season straw returning increased by 0.71 and 1.29g/kg,available nitrogen increased by 17.15 and 28.27mg/kg,available phosphorus increased by 0.96 and 1.73mg/kg,available potassium increased by 2.41 and 5.92mg/kg,the soil pH increased by 0.16 and 0.2.Compared with the single application of chemical fertilizer,the average yields of single and double-season straw returning increased by 7.5%and 11.8%,and their average income increased by 87.3and 117.1yuan of per mu(667m^2)respectively.展开更多
[Objectives]This study was conducted to investigate the effects of milk vetch(Astragalus sinicus)on soil nutrients and microorganisms in paddy fields after returning to the field.[Methods]Three treatments,no fertiliza...[Objectives]This study was conducted to investigate the effects of milk vetch(Astragalus sinicus)on soil nutrients and microorganisms in paddy fields after returning to the field.[Methods]Three treatments,no fertilization,single application of chemical fertilizers and milk vetch return combined with chemical fertilizers,were set up to determine soil nutrient contents and the quantity of microorganisms,respectively.[Results]The return of milk vetch combined with chemical fertilizers could significantly increase the contents of organic matter and total nitrogen in the paddy soil,while the contents of available potassium and available phosphorus decreased.Milk vetch return combined with chemical fertilizers could significantly increase the quantity of soil microorganisms in the paddy field.[Conclusions]The return of milk vetch can be used as a feasible measure to improve soil fertility.展开更多
Based on the MTLL lightning return stroke model,a two-dimensional cylindrical finite-difference time-domain( FDTD) model for underground horizontal electric field was established,and the effects of distance from light...Based on the MTLL lightning return stroke model,a two-dimensional cylindrical finite-difference time-domain( FDTD) model for underground horizontal electric field was established,and the effects of distance from lightning channel,depth,soil electrical conductivity and its distribution,and return stroke current on the characteristics of underground horizontal electric field were analyzed. The results showed that as long as the electrical conductivity of soil existed,the peak of underground horizontal electric field decreased with the increase in the horizontal distance from lightning channel. When the electrical conductivity of the upper soil was much smaller than that of the lower soil,the peak of corresponding horizontal electric field was larger than the electric field peak as the electrical conductivity of the upper soil was larger than that of the lower soil. When the electrical conductivity of the upper soil was less than that of the lower soil,the growth and decay of the horizontal electric field were faster than the growth and decay as the electrical conductivity of the upper soil was larger than that of the lower soil.展开更多
我国每年生产大量的作物秸秆,不加处理或处理不当,会严重威胁水体或大气环境质量。秸秆还田是当前解决作物秸秆田间焚烧或无序堆放威胁环境质量的最主要方法。秸秆还田按目的可分为两种方式:以处置秸秆为目的的处置化原位还田和以消除...我国每年生产大量的作物秸秆,不加处理或处理不当,会严重威胁水体或大气环境质量。秸秆还田是当前解决作物秸秆田间焚烧或无序堆放威胁环境质量的最主要方法。秸秆还田按目的可分为两种方式:以处置秸秆为目的的处置化原位还田和以消除作物生长障碍因素为目的的消障化异地还田。无论何种秸秆还田方式均未利用秸秆生物能,虽在一定程度上可以提高土壤有机质含量,但作用有限,且无显著的时间累积效应。秸秆沼气化利用了秸秆生物能,但因产气不稳定,沼渣、沼液处理难等因素,推广应用难度大。笔者提出了一种能够在同一时间和空间,实现秸秆改土和产能等多重目标的秸秆处理方式,称作“秸秆改土产能时空一体化处理”方法(space-time Integration of Soil improvement and Energy production by using Straw,ISES),即就近集中秸秆于需要改良的土壤,使秸秆施用量达到5%土重以上,与土壤充分混匀,在淹水条件下,密封培养,收集厌氧发酵产生的沼气用作家庭燃料或作它用。ISES处理可跨肥力等级提升土壤有机质含量,产气量及气体中CH4浓度与沼气发酵相当,且不需要处理沼液和沼渣,可服务于改土、产能和固碳等多重目标。加强对ISES系统碳转化和CH4产生过程及其产气率和CH4浓度影响因素的研究,评估ISES处理过程及处理后的环境效应,对于优化处理工艺,明确可采用ISES处理的土壤类型、适宜的处理时间,降低ISES处理的环境效应,制订安全生产措施,预测经济可行性都是十分必要的。展开更多
针对青海高原及高寒地区小麦生产氮肥施用量高、温室气体排放量大等问题,探究绿肥不同还田方式及小麦季不同施氮量对小麦农田温室气体排放和产量的影响,为该区小麦可持续生产提供理论依据和技术支撑。试验于2023—2024年在青海大学农林...针对青海高原及高寒地区小麦生产氮肥施用量高、温室气体排放量大等问题,探究绿肥不同还田方式及小麦季不同施氮量对小麦农田温室气体排放和产量的影响,为该区小麦可持续生产提供理论依据和技术支撑。试验于2023—2024年在青海大学农林科学院试验站进行,采用裂区试验设计,主区为小麦季3个施氮水平:常规施氮(225kg hm^(–2), N2)、减施氮肥30%(158 kg hm^(–2), N1)和不施氮(0 kg hm^(–2), N0);裂区基于上一年度绿肥设置3种还田方式:地上部移除仅根茬还田(RR)、地上部过腹联合根茬还田(SDRR)、地上部及根茬全量还田(RROS)。结果表明,减氮30%结合绿肥过腹+根茬还田(N1SDRR)处理显著降低温室气体排放:CO_(2)排放总量较减氮30%全量还田(N1RROS)降低4.2%;N_(2)O排放总量、CH4吸收总量较N1RROS降低19.1%、提升15.8%;全球增温潜势(GWP)较N1RROS降低5.0%。N1SDRR处理小麦籽粒产量较N1RROS提高4.1%,温室气体排放强度(GHGI)较N1RROS降低14.6%,实现减排稳产。此外, N1SDRR处理土壤有机质、铵态氮含量较N1RROS提升9.1%、22.8%,土壤硝态氮含量较N1RROS降低10.0%;土壤蔗糖酶、脲酶活性较N1RROS分别提高3.2%、7.8%,但土壤亚硝酸还原酶、硝酸还原酶活性分别降低11.9%、5.7%,表明该模式通过提升土壤有机质、调控铵/硝态氮平衡同步降低温室气体排放并维持生产力。随机森林模型进一步表明,土壤蔗糖酶、籽粒产量及土壤有机质是调控温室气体排放强度的关键因子,优化施氮与绿肥还田方式会对土壤碳、氮含量产生影响,可显著降低单位产量碳排放。因此,氮肥减施30%结合绿肥地上部过腹联合根茬还田可改善土壤理化因子和酶活性,有效降低温室气体排放,稳定小麦籽粒产量,是青海高原及高寒地区小麦农田稳产减排的适宜管理措施。展开更多
基金Supported by National Water Pollution Control and Management Technology MajorProject(2013ZX07103006)Anhui Land Resource Technological Project(2012-K-18)~~
文摘In the research, effects of straw returning to fields on soil temperature, water, volume-weight, porosity, trace elements, and organic matters were reviewed and countermeasures were proposed to promote straw returning on basis of straw resources and present status in Anhui Province.
文摘Based on advances in returning rice and wheat straw to fields at home and abroad, environmental physical, chemical and ecological effects of returning rice and wheat straw to fields were analyzed. The results show that returning straw to fields can enhance soil porosity, reduce soil bulk density, and increase the ca- pacity of soil to preserve water, fertilizer and temperature. Besides, it can improve the content of organic matter, nitrogen, phosphorus and potassium in soil, of which the increase of potassium content is the most obvious. Meanwhile, it can provide energy and nutrients for microorganisms in soil and change the activity of soil enzymes, of which it affects invertase most greatly and enhances the activity of ure- ase but has no effect on neutral phosphatase. In addition, it can enhance the total quantity of microorganisms in soil obviously, and the increase correlates positively with the quantity of straw returning to fields. Finally, returning straw to fields can promote the sustainable development of agriculture.
基金Supported by Project of Hunan Tobacco Monopoly Bureau
文摘The effects of amount of green manure returned to field on yield and quality of flue-cured tobacco were studied by field experiment. The results showed that significant positive correlation existed between tobacco leaf yield and small or moderate amount of green manure returned to field. Path analysis showed that moderate amount of green manure returned to field affected yield and quality of tobacco leaves, small green manure returned to field mainly affected leaf yield, while large amount of green manure returned to field mainly affected leaf quality. Therefore, the effect of moderate amount of green manure returned to field on yield and quality of tobacco leaves was best, and moderate amount of green manure returned to field was recommended in production of flue-cured tobacco.
文摘From 2017 to 2018,the effects of winter planting of milk vetch on yield and partial productivity of nitrogen fertilizer of machine-transplanted double-cropping rice under straw returning were studied in Ningxiang city,Hunan Province.The results showed that the dry matter accumulation,effective panicle,yield and partial productivity of nitrogen fertilizer in the stem,leaf,panicle and aboveground parts of early and late rice treated with winter planting milk vetch and straw returning were signi ficantly higher than those treated with straw returning only.Among them,the effective panicles of early and late rice increased by 2.58%,3.18%(2017)and 5.22%,6.32%(2018),respectively.Yield increased by 11.85%,10.07%(2017)and 12.42%,10.92%(2018),annual partial productivity of nitrogen fertilizer increased by 10.90%(2017)and 11.66%(2018),respectively.In conclusion,winter planting milk vetch under straw returning is beneficial to increase dry matter accumulation,rice yield and partial productivity of nitrogen fertilizer in mechanized double cropping rice.
基金Shaanxi Provincial Innovation Capability Support Program(2019XY-03)Key R&D Program of Shaanxi Province(2019ZDLN01-05-02)+2 种基金Guangxi Key R&D Program(GuiKe AB19259016)Project of Shaanxi Academy of Forestry Sciences(SXLK2020-0218)Xi'an Science and Technology Plan Project(20193051YF039NS039,20NYYF0026).
文摘[Objectives]To alleviate the influence of meteorological conditions on soil environment(temperature and water content)and maintain high and stable grain yield.[Methods]Taking Sunzhen Experimental Station of Weinan Academy of Agricultural Sciences as the experimental base,the effects of returning double-crop wheat and corn straw to field(Twm),returning single-crop corn straw to field(Tm),returning single-crop wheat straw to field(Tw)on soil temperature,water content,straw decomposition rate and nutrient release,soil organic matter and bulk density were studied systematically.[Results]Twm treatment could effectively alleviate the effects of meteorological conditions on soil temperature and water content.The decomposition rate of straw treated with Twm was 4.7%higher than that of Tm treatment,3.8%higher than that of Tw treatment,10.5%higher than that of Tm treatment,and the decomposition rate of straw showed a trend of"first fast,then slow and then fast".The release of nitrogen from straw was basically similar to that of straw decay,and the release of potassium and phosphorus increased at first and then remained basically unchanged.The release rate of potassium was the highest,followed by phosphorus and nitrogen.The content of soil organic matter in Twm treatment increased by 11.67%annually,an annual average of 0.998 g/kg.The soil bulk density of Twm treatment decreased by 0.058 g/cm^(3) annually,an annual average of 4.29%.The fundamental reason is that Twm treatment provides conditions(temperature,water content,nutrition)for microbial growth,reproduction,enzyme production and biochemical reaction,and increases the exchange capacity of soil and external water,heat,gas and fertilizer.[Conclusions]It is expected is to help people change their understanding of returning straw to field from"quick harvest"to"fertilizer transformation".
基金Supported by Huizhou Science and Technology Support Item(2011B040010010)
文摘It is an important way for realizing sustainable development of sweet corn production to stabilize and improve soil fertility of cultivated land in sweet corn production region.Through the test of sweet corn straw directly returning to the field after 6seasons for 3years,the results showed that continuous single application of chemical fertilizer is not conducive to the stability of soil fertility and yield improvement,and implementation of straw returning could receive fertility,improve soil acidic conditions,and enhance the yield of sweet corn.Compared with before the test,the single application of chemical fertilizer increased soil available phosphorus,while the contents of soil organic matter,available nitrogen and available potassium decreased by 1.08,1.18 and 2.47mg/kg respectively,and the soil pH decreased by 0.15.Under the same fertilizer conditions,organic matter contents of single and double-season straw returning increased by 0.71 and 1.29g/kg,available nitrogen increased by 17.15 and 28.27mg/kg,available phosphorus increased by 0.96 and 1.73mg/kg,available potassium increased by 2.41 and 5.92mg/kg,the soil pH increased by 0.16 and 0.2.Compared with the single application of chemical fertilizer,the average yields of single and double-season straw returning increased by 7.5%and 11.8%,and their average income increased by 87.3and 117.1yuan of per mu(667m^2)respectively.
基金Supported by National Key R&D Project(2018YFD0800503)National Natural Science Foundation of China(31860595)。
文摘[Objectives]This study was conducted to investigate the effects of milk vetch(Astragalus sinicus)on soil nutrients and microorganisms in paddy fields after returning to the field.[Methods]Three treatments,no fertilization,single application of chemical fertilizers and milk vetch return combined with chemical fertilizers,were set up to determine soil nutrient contents and the quantity of microorganisms,respectively.[Results]The return of milk vetch combined with chemical fertilizers could significantly increase the contents of organic matter and total nitrogen in the paddy soil,while the contents of available potassium and available phosphorus decreased.Milk vetch return combined with chemical fertilizers could significantly increase the quantity of soil microorganisms in the paddy field.[Conclusions]The return of milk vetch can be used as a feasible measure to improve soil fertility.
文摘Based on the MTLL lightning return stroke model,a two-dimensional cylindrical finite-difference time-domain( FDTD) model for underground horizontal electric field was established,and the effects of distance from lightning channel,depth,soil electrical conductivity and its distribution,and return stroke current on the characteristics of underground horizontal electric field were analyzed. The results showed that as long as the electrical conductivity of soil existed,the peak of underground horizontal electric field decreased with the increase in the horizontal distance from lightning channel. When the electrical conductivity of the upper soil was much smaller than that of the lower soil,the peak of corresponding horizontal electric field was larger than the electric field peak as the electrical conductivity of the upper soil was larger than that of the lower soil. When the electrical conductivity of the upper soil was less than that of the lower soil,the growth and decay of the horizontal electric field were faster than the growth and decay as the electrical conductivity of the upper soil was larger than that of the lower soil.
文摘我国每年生产大量的作物秸秆,不加处理或处理不当,会严重威胁水体或大气环境质量。秸秆还田是当前解决作物秸秆田间焚烧或无序堆放威胁环境质量的最主要方法。秸秆还田按目的可分为两种方式:以处置秸秆为目的的处置化原位还田和以消除作物生长障碍因素为目的的消障化异地还田。无论何种秸秆还田方式均未利用秸秆生物能,虽在一定程度上可以提高土壤有机质含量,但作用有限,且无显著的时间累积效应。秸秆沼气化利用了秸秆生物能,但因产气不稳定,沼渣、沼液处理难等因素,推广应用难度大。笔者提出了一种能够在同一时间和空间,实现秸秆改土和产能等多重目标的秸秆处理方式,称作“秸秆改土产能时空一体化处理”方法(space-time Integration of Soil improvement and Energy production by using Straw,ISES),即就近集中秸秆于需要改良的土壤,使秸秆施用量达到5%土重以上,与土壤充分混匀,在淹水条件下,密封培养,收集厌氧发酵产生的沼气用作家庭燃料或作它用。ISES处理可跨肥力等级提升土壤有机质含量,产气量及气体中CH4浓度与沼气发酵相当,且不需要处理沼液和沼渣,可服务于改土、产能和固碳等多重目标。加强对ISES系统碳转化和CH4产生过程及其产气率和CH4浓度影响因素的研究,评估ISES处理过程及处理后的环境效应,对于优化处理工艺,明确可采用ISES处理的土壤类型、适宜的处理时间,降低ISES处理的环境效应,制订安全生产措施,预测经济可行性都是十分必要的。
文摘针对青海高原及高寒地区小麦生产氮肥施用量高、温室气体排放量大等问题,探究绿肥不同还田方式及小麦季不同施氮量对小麦农田温室气体排放和产量的影响,为该区小麦可持续生产提供理论依据和技术支撑。试验于2023—2024年在青海大学农林科学院试验站进行,采用裂区试验设计,主区为小麦季3个施氮水平:常规施氮(225kg hm^(–2), N2)、减施氮肥30%(158 kg hm^(–2), N1)和不施氮(0 kg hm^(–2), N0);裂区基于上一年度绿肥设置3种还田方式:地上部移除仅根茬还田(RR)、地上部过腹联合根茬还田(SDRR)、地上部及根茬全量还田(RROS)。结果表明,减氮30%结合绿肥过腹+根茬还田(N1SDRR)处理显著降低温室气体排放:CO_(2)排放总量较减氮30%全量还田(N1RROS)降低4.2%;N_(2)O排放总量、CH4吸收总量较N1RROS降低19.1%、提升15.8%;全球增温潜势(GWP)较N1RROS降低5.0%。N1SDRR处理小麦籽粒产量较N1RROS提高4.1%,温室气体排放强度(GHGI)较N1RROS降低14.6%,实现减排稳产。此外, N1SDRR处理土壤有机质、铵态氮含量较N1RROS提升9.1%、22.8%,土壤硝态氮含量较N1RROS降低10.0%;土壤蔗糖酶、脲酶活性较N1RROS分别提高3.2%、7.8%,但土壤亚硝酸还原酶、硝酸还原酶活性分别降低11.9%、5.7%,表明该模式通过提升土壤有机质、调控铵/硝态氮平衡同步降低温室气体排放并维持生产力。随机森林模型进一步表明,土壤蔗糖酶、籽粒产量及土壤有机质是调控温室气体排放强度的关键因子,优化施氮与绿肥还田方式会对土壤碳、氮含量产生影响,可显著降低单位产量碳排放。因此,氮肥减施30%结合绿肥地上部过腹联合根茬还田可改善土壤理化因子和酶活性,有效降低温室气体排放,稳定小麦籽粒产量,是青海高原及高寒地区小麦农田稳产减排的适宜管理措施。
