青饲牧草地化学除草试验报告

对６种青饲牧草用７种除草剂进行除草试验。证明播后苗前墨西哥类玉米用４０％阿特拉津胶悬剂０．９０ｋｇ（ａｉ）／ｈｍ＾２；Ｍ－８１Ｅ饲用高粱与串叶松香草适宜用６０％丁草胺乳油０．９０ｋｇ（ａｉ）／ｈｍ＾２；苏丹草适宜用６０％丁草胺乳油０．９０ｋｇ９ａｉ）／ｈｍ＾２与２５％绿麦隆可湿性粉剂０．９４ｋｇ（ａｉ）／ｈｍ＾２，紫苏用１２％恶草灵乳油０．２７ｋｇ（ａｉ）／ｈｍ＾２与８４％ｃｈｉｎｃｈ乳油１．８９     

温度影响下斑潜蝇种间竞争取代的分子机制研究进展

斑潜蝇是一类为害园艺蔬菜作物的世界性害虫,也是我国重要的外来有害生物。斑潜蝇种类繁多,不断向世界各地入侵扩散,在其扩散过程中种间竞争取代频繁。斑潜蝇种间竞争取代机制复杂,影响种间竞争取代的因子很多,其中温度是影响斑潜蝇种间竞争取代的重要因子。该文首先以温度影响下斑潜蝇种间竞争生态学机制为切入点,分别从关键胁迫耐受性基因——热激蛋白(heat shock protein,Hsp)基因的表达、Hsp基因非编码区的特征和转录组比较分析3个层面对近缘斑潜蝇竞争取代分子机制进行总结与探讨,并从胁迫耐受性基因类型、分子生物学研究方法及种间竞争其他因子等方面对斑潜蝇种间竞争取代未来的研究方向进行了展望。     

Critical period for weed control in direct seeded red pepper (Capsicum annum L.)

Direct seeded red pepper is a cash crop in Kahramanmara? province of Turkey as well as some other nearby provinces. Weeds are a major constraint in red pepper production. Field studies were conducted to determine critical period for weed control (CPWC) in direct seeded spice pepper in Kahramanmara?, in 2008 and 2009. The CPWC in red pepper based on a 2.5%, 5% and 10% acceptable yield loss (AYL) was calculated by fitting logistic and Gompertz equations to relative yield data. The CPWC in red pepper was determined from 0 to 1087 growing degree days (GDD) in 2008 and from 109 to 796 GDD in 2009 for 10% AYL after crop emergence in red pepper. For 2.5–5% AYL, the CPWC starts with germination and lasts until harvest. Direct seeded red pepper is very vulnerable to weed competition and weed control programs for direct seeded spice pepper in Turkey should include pre‐emergence and residual herbicides.     

入侵杂草虉草在云南的发生、危害和防除状况调查

采用倒置"W"九点取样法和5级目测法,调查了云南冬季作物田杂草虉草的发生和危害状况。结果表明,截至2017年在云南有7个地州33个区县发现有虉草危害,其中保山地区危害最为严重,占全省受害面积的92%,其次是大理白族自治州。虉草在冬季作物田大麦、小麦、油菜和蚕豆田均有发生。危害的虉草有两个种,分别是小籽虉草Phalaris minor和奇异虉草P.paradoxa。其中小籽虉草的发生较为普遍,奇异虉草为零星发生。虉草造成的危害指数在6%~50%之间,对农作物造成的产量损失在40~110kg/667m2之间。虉草的防除以化学防除为主,人工防除为辅,但目前尚缺乏经济有效的防除农田虉草的除草剂。     

云南省六个国家级自然保护区外来入侵草本植物与本地植物的关系

为明确不同自然保护区外来入侵草本植物及其与本地植物多样性之间的关系,以我国生物多样性丰富的云南省为研究对象,于2014年对云南省6个国家级自然保护区的82个1 m2小样方(78个100 m2大样方)中外来入侵草本植物和本地植物物种丰富度和密度进行调查,并分析外来入侵草本植物物种丰富度与本地草本植物物种丰富度、外来入侵草本植物密度与本地草本植物密度的关系及对不同自然保护区外来入侵草本植物物种丰富度的差异进行分析。结果显示,共调查发现22种外来入侵草本植物,其中纳板河流域国家级自然保护区种类最多,达14种,金平分水岭国家级自然保护区仅有2种;6个国家级自然保护区本地草本植物的物种丰富度与外来入侵草本植物的物种丰富度之间、本地草本植物密度与外来入侵草本植物密度之间均呈现正、负2种相关关系,其中哀牢山国家级自然保护区本地草本植物的物种丰富度与外来入侵草本植物物种丰富度呈显著负相关,其它5个国家级自然保护区的相关性均不显著。简单回归分析表明自然保护区外来入侵草本植物物种丰富度与本地草本植物物种丰富度、本地草本植物盖度、本地乔灌木物种丰富度呈显著负相关,多元回归分析结果表明乔灌木物种丰富度和经纬度是造成不同自然保护区外来入侵草本植物物种多样性差异的主要原因。     

30%苄嘧·丙草胺乳油等量施药的次数及时间对稻田除草效果的影响

为探索如何提高稻田除草剂使用效率, 实现除草剂减量使用, 本试验以30%苄嘧·丙草胺乳油为供试药剂, 以‘甬优1540’为供试水稻, 保持除草剂总量一致的前提下, 利用大田试验和温室盆栽试验, 通过设置插秧前?插秧时?插秧后单次施用100%推荐剂量, 插秧前和插秧后各施用50%推荐剂量, 插秧前及苗期各施用50%推荐剂量, 以及不施用除草剂的6种处理, 研究不同施药次数及施药时间对稻田禾本科?阔叶类?莎草科三类杂草及其总草防除效果的影响?温室盆栽试验表明, 与其他处理相比, 采用30%苄嘧·丙草胺乳油于移秧后3 d施药50%推荐剂量及苗期再施50%推荐剂量的处理, 可使水稻移栽后24 d时的稗草?千金子和耳叶水苋发生量明显少于其他施药方式, 说明该施药方式对稻田杂草具有明显的抑制作用; 此外, 大田试验表明, 采用上述同样的施药方式, 可使水稻在移栽后36 d时的分蘖在各处理中达到最大量, 为16.90万/667m2, 且杂草总发生量最少, 为17.00株/m2, 杂草株防效最高, 为84.17%?本研究表明, 30%苄嘧·丙草胺乳油在移秧后3 d施用50%推荐剂量, 及苗期再施50%推荐剂量, 对稻田杂草防除效果较好?     

内蒙古外来入侵物种及其对草原的影响

生物入侵严重威胁着内蒙古草原的生物多样性和生态安全。目前,内蒙古地区乃至于全国对外来物种只重引进、疏于管理,导致外来物种逃逸到自然环境中,造成潜在的环境灾害。本研究据文献查阅以及中国外来入侵物种数据库信息,整理分析内蒙古境内分布的外来入侵物种的种类、来源地、侵入途径及对草原的危害状况,并对内蒙古草原应对外来物种入侵提出了相应的防控措施。根据统计,外来入侵植物中的牛膝菊(Galinsoga parviflora)和光梗蒺藜草(Cenchrus calyculatus)已表现出蔓延趋势,其他物种有待进一步的调查。     

Factors affecting seed germination and emergence of Gomphrena perennis

Controlled growth chamber experiments were conducted to determine factors affecting seed germination and emergence of the troublesome weed Gomphrena perennis. The objective of this research was to examine the effects of temperature, light, moist chilling, osmotic potential, dry storage and depth of seed burial on G. perennis germination and emergence. The optimum temperature for germination was around 15–20°C. Seeds showed germination rates above 90% under 20/10 and 25/15°C temperature regimes. The minimum exposure to light needed to stimulate germination was 1 min. However, the light requirement was reduced after a long storage period. Furthermore, germination was high (>90%) in all moist‐chilling treatments tested. Germination was highly sensitive to increasing osmotic stress. The highest germination percentage (94%) was achieved at 0 MPa, and decreasing osmotic potential from 0 to ?0.3 MPa reduced germination to 11%. The highest seedling emergence occurred for seeds placed from 0 to 1 cm deep, and no seedlings emerged from a 5‐cm burial depth. Gomphrena perennis has a suitable environment in a no‐till soybean field, where seeds remaining on the surface have the required temperature, light and depth needed for germination.     

The role of models for multicriteria evaluation and multiobjective design of cropping systems for managing weeds

Weeds are both harmful for crop production and important for biodiversity, while herbicides can pollute the environment. We thus need new cropping systems optimising all cultural techniques, reconciling agricultural production, herbicide reduction and biodiversity conservation. Here, we show how to (i) develop models quantifying the effects of cropping systems on weed dynamics, (ii) integrate interactions between weeds and other organisms, (iii) predict the impact on production and biodiversity and (iv) use the model for multicriteria evaluation and multiobjective design of cropping systems. Among the existing weed dynamics models, we chose the one closest to our requirements to illustrate these different steps, that is, FlorSys which predicts multispecific weed dynamics as a function of cultural techniques and pedoclimate. We have illustrated the development of interaction submodels with the example of a crop pathogen whose propagation is increased when infecting grass weeds. To evaluate the weed flora impact, predicted weed densities were translated into indicators of harmfulness (crop yield loss, technical harvest problems, harvest pollution, field infestation, crop disease increase) and biodiversity (weed species richness and equitability, trophic resources for birds, insects and pollinators). Simulations were run over several years and with different weather scenarios (i) to optimise cultural techniques to control harmful weeds, (ii) to analyse the impact of changing agricultural practices (e.g. simplified tillage and rotations, no‐till, temporary crops) on weed density, species and trait composition and (iii) to evaluate cropping systems for their ability to reconcile agricultural production and biodiversity, thus identifying levers for designing sustainable cropping systems.