茴香轮作调控土壤细菌群落缓解三七连作障碍的效应及机制

三七是我国特有的中药材，但连作障碍严重制约了其产业发展，轮作是生产上最常用且有效的缓解措施。本研究在三七收获后的土壤上轮作茴香，通过测定轮作土壤水浸液对三七存苗的影响来评价轮作对三七连作障碍的缓解效果，并从轮作对土壤细菌群落的影响方面深入阐释轮作缓解连作障碍的机制。结果表明，茴香轮作后的土壤水浸液可以显著提高三七的存苗率。土壤细菌分析表明，茴香轮作后土壤细菌群落发生了明显改变。细菌的丰富度增加，相对丰度>1%的优势菌门变形菌门Proteobacteria和放线菌门Actinobacteria的相对丰度呈增加趋势。属水平上，轮作茴香使66个属的相对丰度显著增加，其中相对丰度>0.2%的优势菌属有14个；30个属的相对丰度显著降低，其中优势菌属有8个，总体上看相对丰度显著增加的属多于显著降低的属。在相对丰度显著增加的优势菌属中包含常见的拮抗菌属假单胞菌属Pseudomonas和芽孢杆菌属Bacillus细菌。本研究也分离到2株假单胞菌和1株芽孢杆菌对三七根腐病菌腐皮镰刀菌Fusarium solani和Monographella cucumerina具有明显的拮抗活性。因此，轮作茴香可以改善三七连作土壤细菌群落结构，增加土壤中拮抗细菌的丰度，提高三七的存苗率。生产上利用茴香与三七轮作对缓解连作障碍具有一定潜力。     

考虑水头损失的管道灌溉分水口轮灌分组优化模型

【目的】优化灌溉系统中分水口轮灌分组的灌溉制度,在满足流量要求的条件下节约电能。【方法】提出了在考虑水头损失时不同分水口状态与管道进口压力的关系模型,该模型利用分水口开关0,1状态作为自变量,从管道末端起利用推导的递推公式求出管道进水口的等效水头损失系数。依据该模型,在定流量分组轮灌优化中得到为使分组轮灌功率最小的目标函数。利用遗传算法对上述问题进行了优化求解,并给出了编码方案。【结果】在分水口等间隔布置时,轮灌分组按轮灌分组数等间隔安排所需功率最小,优化后的水头损失系数可以减小到没有优化前的0.772倍。【结论】本研究模型不仅适用于恒定流量的组合优化,也可应用于不同分水口的所需水量不同的随机灌溉以及恒压供水的优化中。     

Weed seedling emergence in contrasting fodder crop systems following 30 years of cultivation in the lowlands of Northern Italy

Five fodder crop systems of different intensity (ranging from a double annual crop of Italian ryegrass + silage maize to a permanent meadow) were adopted for 30 years in the lowlands of Northern Italy under two input levels, differing mainly in their provision of organic fertiliser (manure). Herbicides were used in the maize crops included in all systems, except the meadow. After 30 years, the weed seedbank of all systems and input levels were assessed by the seedling emergence technique on soil samples from each plot. The cropping systems determined the abundance and composition of the weed assembly. Relatively few, frequent species made up the majority of the emerged seedlings in all systems, and there was no relationship between the total number of emerged seedlings and the mean number of species recorded in the different systems. Arabidopsis thaliana and Oxalis corniculata were abundant in the annual double crop and in the 3- and 6-year rotations that also comprised the annual double crop. These weeds, however, were unlikely to represent a major threat to the crops, due to their vigour and growth period. The permanent meadow tended to greater weed biodiversity than the other systems. The application of manure favoured the seedbank of species such as Lolium multiflorum, Digitaria sanguinalis and A. thaliana. Weed communities in the different systems were mainly determined by herbicide application, (through the ability of weeds to avoid its effects, determined by the weed life history and emergence period) and manure application (with its possible dual effect of spreading weed seeds and favouring nitrogen-responsive weeds).     

粮豆轮作遥感监测对卫星时空及谱段指标的需求分析

该文面向粮豆轮作遥感监测卫星数据需求,针对最小监测地块、作物类型、时效性的要求,分别对不同空间分辨率影像识别能力、不同波段组合识别能力、最高云覆盖区域晴空获取能力3个方面进行分析,提出了光学遥感卫星理想的空间分辨率要优于0.3 m,光谱设置可以采取基本波段(蓝、绿、红、近红)+红边或者基本波段(蓝、绿、红、近红)+短波谱段2种方式,重访周期要达到3 d以内。在上述指标满足条件下,能够对中国普遍存在的0.3 m宽度田埂进行有效识别,从而达到地块识别的目标;能够利用作物红边、短波谱段特征的差异,对生长中期玉米、大豆进行有效识别,达到粮豆轮作主要作物类型识别的目的;以3 d的重访周期,可以最大限度获取覆盖中国全国区域的晴空有效影像,在数据源获取上保证粮豆轮作业务化作业能力。该研究可为满足中国粮豆轮作等农情遥感监测需求的农业监测卫星研制及相应指标规定提供参考。     

长江中游地区水旱复种轮作模式资源利用率比较研究

为了实现农田资源高效利用,维护农业生态良性循环,优化长江中游地区传统种植模式,本研究于2013年10月—2015年11月,以冬闲连作为对照,分析比较了不同水旱复种轮作模式(冬闲-早稻-晚稻→冬闲-早稻-晚稻、马铃薯-玉米‖大豆-晚稻→蔬菜-花生‖玉米-晚稻、蔬菜-花生‖玉米-晚稻→绿肥-早稻-晚稻、绿肥-早稻-晚稻→油菜-花生-晚稻、油菜-花生-晚稻→马铃薯-玉米‖大豆-晚稻)的光、温、水、土资源利用效率。结果表明:水旱复种轮作模式的冬季、晚季和周年的光能利用率均比冬闲连作处理高,周年光能利用率两年间分别高8.26%~82.50%和2.63%~121.42%,其中均以"蔬菜-花生‖玉米-晚稻→绿肥-早稻-晚稻"轮作模式最高。水旱复种轮作模式的年有效积温利用率均高于冬闲连作模式,两年间分别高12.87%~21.26%和11.17%~25.88%,以"蔬菜-花生‖玉米-晚稻→绿肥-早稻-晚稻"轮作模式最佳。两年间水旱复种轮作模式的冬季、晚季和周年的水分利用率均比冬闲连作处理高,其中周年水分利用率分别高45.36%~83.50%和40.00%~118.75%,以"马铃薯-玉米‖大豆-晚稻→蔬菜-花生‖玉米-晚稻"轮作模式的晚季和周年水分利用率最高,"蔬菜-花生‖玉米-晚稻→绿肥-早稻-晚稻"模式的冬季水分利用率最高。两年间土地利用率均以"绿肥-早稻-晚稻"复种模式最高,平均利用率达96.11%,"蔬菜-花生‖玉米-晚稻→绿肥-早稻-晚稻"轮作模式的土地利用率表现最好。因此,各水旱复种轮作模式的周年光能利用率、年有效积温利用率、水分利用率和土地利用率均高于冬闲对照,其中以"蔬菜-花生‖玉米-晚稻→绿肥-早稻-晚稻"和"绿肥-早稻-晚稻→油菜-花生-晚稻"轮作模式表现较好,适宜在长江中游地区推广应用。     

长期施肥对高原农业生态系统土壤有机碳和氮的影响

The effects of fertilization on the distributions of organic carbon (OC) and nitrogen (N) in soil aggregates and whether these effects vary with cropping system have not been well addressed.Such information is important for understanding the sequestration of OC and N in agricultural soils.In this study,the distributions of OC and N associated with soil aggregates were analyzed in different fertilization treatments in a continuous winter wheat cropping system and a legume-grain rotation system in a 27-year field experiment,to understand the effects of long-term fertilization on the distributions of OC and N in aggregates and to examine the recovery of soil OC and N in a highland agroecosystem.Manure fertilizer significantly decreased soil bulk density but increased the amount of coarse fractions and their associated OC and N stocks in the soils of both systems.Fertilizers N + phosphorus (P) and manure had similar effects on total soil OC and N stocks in both systems,but had larger effects on the OC and N stocks in ＞ 2 mm aggregates in the legume-grain rotation system than in the continuous winter wheat system.The application of P increased the OC and N stocks in ＞ 2 mm aggregates and decreased the loss of N from chemical fertilizers in the legume-grain rotation system.The results from this study suggested that P fertilizer should be applied for legume-included cropping systems and that manure with or without chemical fertilizers should be applied for semiarid cropping systems in order to enhance OC and N accumulation in soils.     

热带农业生态系统土壤肥力与植物养分综合管理研究进展

The greatest challenge for tropical agriculture is land degradation and reduction in soil fertility for sustainable crop and livestock production.Associated problems include soil erosion,nutrient mining,competition for biomass for multiple uses,limited application of inorganic fertilizers,and limited capacity of farmers to recognize the decline in soil quality and its consequences on productivity.Integrated soil fertility management(ISFM) is an approach to improve crop yields,while preserving sustainable and long-term soil fertility through the combined judicious use of fertilizers,recycled organic resources,responsive crop varieties,and improved agronomic practices,which minimize nutrient losses and improve the nutrient-use efficiency of crops.Soil fertility and nutrient management studies in Ethiopia under on-station and on-farm conditions showed that the combined application of inorganic and organic fertilizers significantly increased crop yields compared to either alone in tropical agro-ecosystems.Yield benefits were more apparent when fertilizer application was accompanied by crop rotation,green manuring,or crop residue management.The combination of manure and NP fertilizer could increase wheat and faba bean grain yields by 50%–100%,whereas crop rotation with grain legumes could increase cereal grain yields by up to 200%.Although organic residues are key inputs for soil fertility management,about 85% of these residues is used for livestock feed and energy;thus,there is a need for increasing crop biomass.The main incentive for farmers to adopt ISFM practices is economic benefits.The success of ISFM also depends on research and development institutions to provide technical support,technology adoption,information dissemination,and creation of market incentives for farmers in tropical agro-ecosystems.     

Converting conventional agriculture to poplar bioenergy crops: soil greenhouse gas flux

Conversion of agricultural fields to bioenergy crops can affect greenhouse gases (GHG) such as carbon dioxide (CO₂), methane (CH₄), and nitrous oxide (N₂O). Soil GHG emissions were measured seasonally in poplar bioenergy and agricultural fields at three Northwestern US locations. A forest stand was also used at one location for comparison. A portable gas analyzer was used to measure CO₂ efflux and CH₄ and N₂O fluxes were first measured with chambers and later with gradients. Agricultural soil had 17% larger CO₂ efflux rates than poplar soil. Chamber fluxes showed no differences in CH₄ uptake but did show higher N₂O fluxes in poplar than agricultural soil. Gradient CH₄ uptake rates were highest in agricultural soil in the summer but showed no N₂O flux differences. Forest soils had smaller quarterly CO₂ efflux rates than agricultural soils and greater CH₄ uptake rates than poplar soils. The largest GHG contributor to soil GHG flux was CO₂, with those being ～1000 times larger than CH₄ flux rates and ～500 times larger than N₂O flux rates based on CO₂ equivalences. Converting conventional agricultural cropland to poplar bioenergy production does not have adverse effects on soil greenhouse gas flux and these results could be useful for modeling or life cycle analysis of land use conversion.     

小麦-玉米轮作体系中土壤细菌菌群结构及多样性分析

合理的轮作可以改善土壤微生物群落结构，提高土壤肥力，减少病虫害的发生。为了探讨小麦和玉米轮作对土壤细菌的影响，采用传统PCR克隆文库构建、克隆测序并结合EzBioCloud细菌分类鉴定，对河南小麦-玉米轮作体系下农田土壤细菌的菌群结构变化及多样性特征进行了分析。结果表明，变形菌门（33.73%）和拟杆菌门（31.50%）细菌是小麦-玉米轮作体系土壤中最主要的优势菌群，其次为酸杆菌门、芽单胞菌门、放线菌门和疣微菌门等。在小麦和玉米生长期内细菌的丰度和多样性明显高于二者的间隔期；玉米生长期间细菌菌群丰度和物种多样性更高。不同的微生物群落在土壤中担负不同的生态功能。     

陇东旱塬冬小麦复种饲草轮作系统产量和水分利用特征

在陇东黄土高原大田条件下,连续2年研究了冬小麦-饲草复种轮作系统的干物质产量和水分利用,研究采用的处理有:休闲-冬小麦-箭筈豌豆-冬小麦(F-W-V-W),休闲-冬小麦-饲用油菜-冬小麦(F-W-R-W),饲用油菜-冬小麦-箭筈豌豆-冬小麦(R-W-V-W)和饲用油菜-冬小麦-饲用油菜-冬小麦(R-W-R-W)。结果表明:麦茬复种饲草可比麦茬休闲提高系统生产力27%,蛋白质产量增加1100kg/hm~2,同时对后茬冬小麦产量无影响。R-W-R-W模式下干物质产量、粗蛋白产量、干物质水分利用效率和蛋白质水分利用效率均最优,分别为30.68t/hm~2、3.25t/hm~2、7.80kg/(mm·hm~2)和0.92kg/(mm·hm~2)(P0.05)。复种饲用油菜较箭筈豌豆产量高,有效利用了麦茬后降雨量,但箭筈豌豆粗蛋白含量较饲用油菜高22.4%,因此确定麦茬复种模式则需权衡干物质产量与蛋白质产量的需求。