豚草叶片和果实气体交换特性与11种土壤重金属相关性

对10个样地中Cu、Pb、Zn、Mn、Cr、Co、Ni、Cd、As、Sb和Hg11种土壤重金属含量及样地内豚草叶片和果实气体交换特性进行测定.结果表明,样地内豚草叶片的净光合速率在1·88~9·41μmol·m-2·s-1,而果实的净光合速率最高可达2·81μmol·m-2·s-1.叶片的呼吸速率、气孔导度、光合速率和水分利用效率的平均值分别为1·81μmol·m-2·s-1、75·7mmol·m-2·s-1、6·05μmol·m-2·s-1和4·72μmol·mmol-1,分别是果实的5·26、0·64、1·31和1·69倍,说明非同化器官幼嫩果实具有与叶片相当,甚至更强的呼吸、光合能力和水分利用效率;研究地点重金属Ni达到轻微污染水平,其它重金属含量都接近或者显著低于重金属污染的阈值.相关分析和多元回归分析显示,大部分土壤重金属(如Cu、Pb、Zn、Cd、As、Sb和Hg)含量的高低对豚草气体交换特性没有显著影响,仅部分重金属含量与豚草的叶片、果实气体交换特性密切相关,如Ni和Cr对豚草叶片、果实的气孔导度及水分利用效率显著相关;Cr与豚草叶片饱和光合速率显著相关;而As与豚草果实的气孔导度显著相关.表明大部分土壤重金属对叶片和球果的气体交换没有直接影响,而Ni、Cr和As可以在轻微污染甚至没有达到污染水平时影响豚草的气体交换特性.     

三裂叶豚草的化感作用研究

 本文研究了在我国东北地区广泛蔓延的菊科杂草—三裂叶豚草(Ambrosia trifida)对大豆、玉米、小麦、水稻的化感作用(Allelopathy)。通过对三裂叶豚草的不同部位(挥发物、茎叶、根、根区土壤)的化感活性的研究,发现三裂叶豚草的挥发物和根区土壤对作物无明显的作用;茎叶部分的水浸液对实验作物的种子萌发和幼苗的幼根伸长有明显的抑制作用,同时使根系形态发生较大的变化;根的水浸液对作物的幼芽伸长有一定的促进作用。在上述的研究基础上,对不同的活性组分进行了GC、GC/MS分析．结果表明主要的化感成分可能为α-蒎烯、β-蒎烯、2-冰片烯、里那醇、冰片、4-萜品醇、樟脑、α-萜品醇、马鞭烯酮、橙花叔醇、法尼烯、勺叶桉醇等。由此我们分析三裂叶豚草主要是通过雨水淋溶的方式向周围环境释放化感物质,从而对其它植物产生影响,加强自身在自然界的竞争力。     

豚草卷蛾与苍耳螟的资源生态位研究

引进的豚草卷蛾和本地的苍耳螟是取食豚草的重要天敌昆虫。为了进一步明确两种天敌种问的竞争作用,定量研究了豚草卷蛾和苍耳螟在寄主植物种类和空间上的生态位指数。结果表明,在寄主植物种类上,豚草卷蛾只取食豚草和苍耳;苍耳螟可取食豚草、苍耳、黄花蒿、向日葵、万寿菊、国庆菊、菊芋、麦杆菊;苍耳螟的生态位宽度指数(Hurbert标准值0．228)明显大于豚草卷蛾(0．069),两者的食物资源生态重叠程度较小(Horn’s指数0．318);豚草卷蛾和苍耳螟对常用资源的利用率分别为93．5％(豚草)和59．3％(苍耳)。在相同寄主植物上,两种天敌的空间生态位表现为：随着寄主植物的生长发育,两种天敌的生态位重叠程度减小;高龄幼虫的生态位宽度指数大于低龄幼虫。在食物生态位上,豚草卷蛾主要取食新发生的幼嫩枝,并且一旦蛀入形成虫瘿后很少发生转移,而苍耳螟除低龄幼虫喜蛀食幼嫩枝外,高龄幼虫的取食部位常常发生转移,从枝型较细的幼嫩枝转向枝型较粗的老龄枝。两种天敌对豚草和苍耳实际选择作用以及对常用资源利用率存在明显差异,因此,形成竞争的程度较小,在对豚草的控制机制上形成互补作用。     

Fate of the soil seed bank of giant ragweed and its significance in preventing and controlling its invasion in grasslands

Giant ragweed (Ambrosia trifida, L. henceforth referred to as GR), an annual non‐native invasive weed, may cause health problems and can reduce agricultural productivity. Chemical control of GR in grasslands may have irreversible side effects on herbs and livestock. In an attempt to propose a solution to the harmful effects of GR on grasslands, this study explores the fate of its soil seed bank (SSB) and considers the physical control of its SSB reduction. By studying GR distributed in grasslands of the Yili Valley, Xinjiang, China, we measured the spatial and temporal changes in seed density, seed germination, dormancy, and death. We analyzed seed germination, dormancy, and death following different storage periods. The study analyzed population characteristics over time, including seed fate, and examined physical control methods for reducing the SSB density. The SSB of GR occurs in the upper 0–15 cm of soil in grasslands. Seed density in the SSB decreased by 68.1% to 82.01% from the reproductive growth period to the senescence period. More than 98.7% of the seeds were rotten, eaten, germinated, dispersed, or died within one year after being produced. The seed germination rate of the SSB decreased with the number of years after invasion. When stored for 0.5 or 3.5 years, seed germination rates fell by 40%, during which time seed death rate increased by almost 40%. When GR was completely eradicated for two consecutive years, the SSB and population densities decreased by >99%. The vast majority of GR seeds germinated or died within one year; the germination rate decreased significantly if the seeds were stored dry at room temperature for a long time. Newly produced seeds are the main source of seeds in the SSB. Therefore, thoroughly eradicating GR plants for several years before the seeds can mature provides an effective control method in grasslands.     

Germination and emergence of Ambrosia artemisiifolia L. under changing environmental conditions in China

Laboratory and greenhouse studies were conducted to determine the effects of key environmental factors on germination and seedling emergence of the invasive weed Ambrosia artemisiifolia L. (common ragweed) collected from Mudanjiang (temperate climate), Nanjing (temperate–subtropical) and Nanchang (subtropical) in China. Germination of seeds occurred at temperatures ranging from 5 to 40°C, under both a 12‐h photoperiod and continuous darkness. Germination success exceeded 48% in solutions with pH values between 4 and 12, with maximum rates occurring in distilled water at pH 5.57. Germination was greatly reduced in solutions with osmotic potentials below ?0.8 MPa. Accordingly, the final germination ratio exceeded 69% at <200 mmol/L NaCl, but only reached 8% at 400 mmol/L NaCl. Emergence was greater than 75% at burial seed depths of 1–4 cm; no seedlings emerged from a soil depth of 8 cm. Seeds collected from Mudanjiang, Nanjing and Nanchang had very similar germination traits, with the main differences occurring in relation to temperature. The great germination success of common ragweed over highly variable conditions throughout its Chinese distribution range explains its successful large‐scale invasion.     

Size advantage for male function and size‐dependent sex allocation in Ambrosia artemisiifolia,a wind‐pollinated plant

In wind‐pollinated plants, male‐biased sex allocation is often positively associated with plant size and height. However, effects of size (biomass or reproductive investment) and height were not separated in most previous studies. Here, using experimental populations of monoecious plants, Ambrosia altemisiifolia, we examined (1) how male and female reproductive investments (MRI and FRI) change with biomass and height, (2) how MRI and height affect male reproductive success (MRS) and pollen dispersal, and (3) how height affects seed production. Pollen dispersal kernel and selection gradients on MRS were estimated by 2,102 seeds using six microsatellite markers. First, MRI increased with height, but FRI did not, suggesting that sex allocation is more male‐biased with increasing plant height. On the other hand, both MRI and FRI increased with biomass but often more greatly for FRI, and consequently, sex allocation was often female‐biased with biomass. Second, MRS increased with both height and MRI, the latter having the same or larger effect on MRS. Estimated pollen dispersal kernel was fat‐tailed, with the maximum distance between mates tending to increase with MRI but not with height. Third, the number of seeds did not increase with height. Those findings showed that the male‐biased sex allocation in taller plants of A. artemisiifolia is explained by a direct effect of height on MRS.     

广聚萤叶甲成虫的繁殖习性和活动规律初步观察

广聚萤叶甲Ophraella communa是豚草Ambrosia artemisiifoliaL.的一种重要专一性天敌昆虫,对豚草抑制作用显著。本文在室内对广聚萤叶甲成虫交配和产卵活动进行观察,结果表明广聚萤叶甲成虫一生多次交配多次产卵,雄虫交配前期为2.7d,明显长于雌虫的0.9d。交配雌虫有产卵前期,然后开始产卵。成虫交配活动主要在8:00-21:00,一般产卵高峰在12:00-16:00,在交配后的前16天,雌虫产卵处在高峰期,随后产卵逐渐减少。本论文为进一步开展广聚萤叶甲繁殖生物学研究和大量繁殖提供基础。     

广聚萤叶甲和豚草卷蛾对广西来宾豚草的联合控制作用

【背景】豚草已成功入侵广西来宾,对当地生物多样性、农业生产和居民健康造成了严重影响。广聚萤叶甲和豚草卷蛾均为豚草的重要专一性天敌,在湖南等地已有效抑制了豚草的扩散蔓延。【方法】为考查2种天敌在广西对豚草的联合控制作用,于2009年5月24日在广西来宾豚草入侵地区同时释放广聚萤叶甲和豚草卷蛾(2种天敌释放密度均为1170头.hm-2)。【结果】至2009年8月29日释放区内豚草植株死亡率达98%以上,且天敌迅速向邻近豚草发生区扩散,2种天敌对扩散区豚草的控制率可达50%～60%。【结论与意义】2种天敌对豚草具有显著的控制效果,建议在广西大面积推广应用。     

低温条件下广聚萤叶甲成虫的耐饥饿能力

【背景】广聚萤叶甲是恶性入侵杂草豚草的一种重要专一性天敌,在冬季低温且缺乏食物的条件下,广聚萤叶甲的耐饥饿能力直接关系到其越冬种群的虫源基数。【方法】在室内观察广聚萤叶甲成虫在10℃低温条件下的存活率和死亡率,研究了水分(有水、无水)、不同密度(一雌一雄、二雌二雄、五雌五雄)、加入泥土枯枝对广聚萤叶甲耐饥饿能力的影响。【结果】无水、有水条件下,广聚萤叶甲成虫的平均存活时间分别为(15.23±1.01)、(13.33±0.88)d,水分对广聚萤叶甲的耐饥力的影响不显著;随着密度的增加,广聚萤叶甲的耐饥饿能力增强,一雌一雄、二雌二雄和五雌五雄的平均存活时间依次为(11.96±0.57)、(13.78±0.60)、(14.81±0.42)d;加入泥土和豚草枯枝后,广聚萤叶甲的耐饥饿能力明显提高,其平均存活时间为(15.97±1.05)d。【结论与意义】低温条件下广聚萤叶甲的耐饥饿能力较强,可保证部分广聚萤叶甲的自然种群在野外安全越冬,研究低温条件下广聚萤叶甲的耐饥饿能力对豚草的生物防治具有重要意义。     

入侵植物三裂叶豚草在中国的潜在适生区预测

[目的] 三裂叶豚草是中国重点防控的入侵植物,研究其潜在的适生区分布格局变化对预警防控具有重要意义。[方法] 基于MaxEnt优化模型预测当前及未来（RCP2.6、RCP4.5、RCP8.5）气候情景下三裂叶豚草潜在的地理分布格局。[结果] 当调控倍频（RM）=3.5,FC（特征组合）=LQH（线性、二次型、片段化组合）时为最优模型,MaxEnt模型的预测结果较准确,受试者工作特征曲线下的面积（AUC值）达0.9287;综合8种途径评估出人类活动因子（hfp,贡献率69%）、等温性（bio3,贡献率8.9%）、温度季节变动系数（bio4,贡献率2.9%）、年降水量（bio12,贡献率7.3%）和海拔（ELEV,贡献率3.7%）是制约三裂叶豚草潜在地理分布的主要环境因子;在当前气候情景下,三裂叶豚草的高适生区主要集中在东北平原、江淮地区、京津冀、山东半岛等经济发达地区。[结论] 在未来气候变化情景下,三裂叶豚草在我国的潜在适生区范围总体呈现不同程度的缩减,即丧失率大于增加率;三裂叶豚草将有向南迁移的趋势;最冷月最低温度（bio6）是最不相似变量分析中出现频次最高的因子,表明温度因素对三裂叶豚草潜在地理分布变迁起到重要制约作用。本研究结果可为三裂叶豚草的预防和控制提供理论基础。