两种生态型空心莲子草对莲草直胸跳甲发育和繁殖的影响

【目的】评价空心莲子草Alternanthera philoxeroides 2种生态型食物对莲草直胸跳甲Agasicles hygrophila生长发育和繁殖的影响。【方法】建立莲草直胸跳甲在水生型和旱生型空心莲子草上的实验种群两性生命表。【结果】2种生态型空心莲子草对莲草直胸跳甲2龄和3龄幼虫的历期、产卵前期、产卵期、雌虫寿命、雄成虫寿命和繁殖力的影响无显著差异,但取食水生型空心莲子草的莲草直胸跳甲具有较短的蛹历期（6.28 d）、较高的幼虫期存活率（99.00%）和较高的成虫前期存活率（95.00%）;取食旱生型空心莲子草的莲草直胸跳甲在内禀增长率和周限增长率都显著低于水生型食物,但莲草直胸跳甲的净增殖率（R_0）和平均世代周期（T）在旱生型和水生型食物间并无显著差异。【结论】与旱生型空习莲子草相比,水生型空心莲子草是莲草直胸跳甲的较适宜食物,但旱生型空心莲子草并不显著影响莲草直胸跳甲的发育和繁殖。     

莲草直胸跳甲的空间选择与性别分化

【背景】莲草直胸跳甲是空心莲子草的专一性天敌,成功地大量繁殖是其大规模应用于空心莲子草生物防治的必要条件,为了更好地开展莲草直胸跳甲的室内大量繁殖,明确其不同虫态对空心莲子草空间的选择性具有重要意义。【方法】本研究调查了莲草直胸跳甲成虫取食与产卵、幼虫取食、老熟幼虫化蛹的空间选择性,并分析了空心莲子草茎秆直径对幼虫化蛹空间选择、蛹羽化率和羽化成虫性别分化的影响。【结果】雌雄成虫均嗜好栖息于空心莲子草幼嫩的顶叶,位于顶叶的雌、雄成虫数量分别占整株的62.9%和63.3%;成虫偏好将卵产在第2节叶片上,比例高达41.2%;幼虫主要集中于上部3节的叶片上取食,占84.8%;老熟幼虫化蛹前在茎秆上蛀孔后钻入茎秆中化蛹,其不在第1节茎秆内化蛹,化蛹主要选择在3～5节,其中在第4节茎秆内化蛹量最高,达1.0头.节-1;老熟幼虫在1～5节茎秆内的化蛹量与空心莲子草茎秆直径具有显著相关性（y=-19.209x2＋16.66x＋2.6737,R2=0.841）;羽化成虫的雌雄性比则与茎秆直径呈显著正相关（y=5.5704x-1.1718,R2=0.914）。【结论与意义】莲草直胸跳甲成虫和幼虫均偏好在空心莲子草上部的叶片取食,老熟幼虫化蛹则偏好中部较粗壮的茎节,因此,培育茎秆较粗且老化程度较低的空心莲子草是实现莲草直胸跳甲大量饲养的重要途径。本研究可为优化人工大量饲养繁殖莲草直胸跳甲的条件提供数据支持。     

入侵种喜旱莲子草——主要天敌昆虫

喜旱莲子草是一种水陆两栖的重要入侵杂草,中国首批16种重要入侵物种之一.本文介绍了生物防治喜旱莲子草的天敌昆虫莲草直胸跳甲Agasicles hygophila、Vogtia malli、Amynothrips andersoni、阿根廷跳甲Disonycha argentinensis、Systena nitentula和虾钳菜披龟甲Cassida piperata等天敌的分类地位、形态特征、生物学、生态学特性以及国内外寄主专一性研究、释放效果与评价.     

除草剂对莲草直胸跳甲存活与繁殖的影响

【背景】除草剂应用是目前防治空心莲子草的主要措施之一,但其可能对空心莲子草的重要天敌昆虫莲草直胸跳甲的存活、发育和繁殖产生不利影响;为了协调应用化学除草剂和莲草直胸跳甲联合控制空心莲子草的防治措施,本研究探明了除草剂对莲草直胸跳甲的安全性。【方法】采用空心莲子草叶片喷施除草剂后饲喂莲草直胸跳甲的方法,测定了使它隆、农达和稻杰3种除草剂对莲草直胸跳甲成虫和3龄幼虫的取食和存活、幼虫化蛹和成虫产卵的影响。【结果】使它隆对莲草直胸跳甲成虫产卵量的影响较小,喷施农达则显著降低莲草直胸跳甲的产卵量,稻杰的影响居中。连续取食除草剂处理的叶片5d,莲草直胸跳甲成虫取食量均显著降低,3种除草剂的影响为使它隆〉农达〉稻杰。农达对莲草直胸跳甲幼虫的取食量影响较大,取食高浓度农达处理的叶片3d后,其幼虫停止取食;稻杰影响较小。除草剂对莲草直胸跳甲雌虫影响较小,存活率较高。【结论与意义】3种供试除草剂中,稻杰对莲草直胸跳甲最安全,以0.9L.ha-1浓度最佳,在空心莲子草的综合治理中可与莲草直胸跳甲协同应用。     

入侵种喜旱莲子草天敌——莲草直胸跳甲的生物学特性

喜旱莲子草(Alternanthera philoxeroides(Mart.)Griseb.)是一种水陆两栖的重要外来入侵种,是中国国家环保局公布的首批9种重要外来入侵植物之一。莲草直胸跳甲Agasicles hygrophila Selma&Vogt是目前控制喜旱莲子草最有效的天敌昆虫。对该虫的形态特征和行为习性作了描述。卵块成"八"字形,孵化需要高湿度的保持;幼虫有趋嫩性,幼龄幼虫一般取食叶片的下表皮,2、3龄幼虫取食量很大;老熟幼虫在茎秆上咬一个圆形的洞,进入茎秆中化蛹,并咀嚼咬下的植物组织,吐出后塞住洞口;成虫羽化6d后交尾,雌虫产卵于顶叶的背面。     

水流对莲草直胸跳甲种群存活和扩散的影响

【背景】水流是外来入侵生物传播蔓延的重要方式之一,特别是水生生物。水生杂草在水流传播过程中也经常携带其天敌从一个地方传播到另一个地方,如莲草直胸跳甲经常随着空心莲子草在水流中传播。研究水流对莲草直胸跳甲存活的影响及其对种群迁移的间接协助作用,可为解析该天敌抵御洪涝灾害和借助水流传播的能力提供科学依据。【方法】本研究以莲草直胸跳甲为研究对象,在室内进行水流模拟,比较水流转速（1000、1250和1750r.min-1）和时间（30、60、90和120min）对不同虫态莲草直胸跳甲（雌雄成虫、幼虫和卵）存活率的影响,并推算莲草直胸跳甲成虫和幼虫在野外随水流传播的最大距离。【结果】水流速度对昆虫的存活和发育具有一定影响。在不同旋转时间和转速下,雌雄成虫的存活率较高,幼虫次之,卵的存活率最低;雌虫随水流传播能达到的最远距离最大,雄虫次之,传播距离最小的是幼虫。【结论与意义】莲草直胸跳甲可随水流进行远距离传播和自然扩散,对于利用莲草直胸跳甲防治空心莲子草,缓解水渠和河道的堵塞非常有利。     

莲草直胸跳甲释放量对其种群构建的影响

【背景】莲草直胸跳甲是外来入侵杂草空心莲子草的专一性天敌,其田间种群密度直接影响对空心莲子草的控制效果。研究莲草直胸跳甲的种群动态和扩散速度对于适时和适量投放莲草直胸跳甲防治空心莲子草具有重要意义。【方法】2008年5月底,在湿地环境的空心莲子草上释放不同密度的莲草直胸跳甲后,对其进行了持续至12月的种群动态调查。【结果】莲草直胸跳甲种群在6～7月和10～11月分别出现2个明显的高峰期。在湿地、旱地和水田3种生境的空心莲子草上释放莲草直胸跳甲后的扩散动态调查表明,莲草直胸跳甲在旱地的扩散能力强于湿地和水田,放虫后18d,距释放中心点6m处,旱地生境的种群数目大于湿地生境和水田生境。【结论与意义】应用莲草直胸跳甲防治空心莲子草的释放适期为早春5～6月,在不同生境进行释放时,需根据其扩散能力确定适宜的释放点密度和释放量。     

莲草直胸跳甲行为特性的观察

莲草直胸跳甲蛹的羽化呈现一定的昼夜节律,高峰期在8:00 ～ 20:00之间.莲草直胸跳甲成虫在白天黑夜均可取食,0:00～8:00、12:00～14:00是莲草直胸跳甲的取食高峰.莲草直胸跳甲羽化后第4天开始产卵,第8天达到产卵高峰.在成虫整个生活历期内,莲草直胸跳甲产卵主要集中在第4天至14天.莲草直胸跳甲羽化后第...     

外源钙离子与南方菟丝子寄生对喜旱莲子草茎形态结构的影响

外源钙离子对植物响应外界环境胁迫具有重要作用.寄生植物对入侵植物具有显著的抑制作用.以入侵植物喜旱莲子草为研究对象,采用完全随机区组的实验设计分析不同钙离子浓度与南方菟丝子寄生对喜旱莲子草茎形态结构的影响,探讨外源钙离子在寄主植物响应寄生植物胁迫中的作用.研究结果表明南方菟丝子寄生可以显著改变喜旱莲子草茎的形态结构,如显著降低喜旱莲子草茎的总长、分枝数、分节数、茎直径和髓腔直径,显著增加茎的厚角厚度与皮层厚度.外源钙离子对喜旱莲子草茎总长、分枝数、分节数、茎直径、髓腔直径和维管束直径没有显著影响,但可增加喜旱莲子草茎的维管束数目,降低茎的节间长、厚角厚度与皮层厚度.外源钙离子与南方菟丝子寄生相互作用可以显著增加喜旱莲子草茎的厚角厚度与皮层厚度,表明南方菟丝子寄生与高浓度的钙离子对喜旱莲子草茎的厚角厚度和皮层厚度具有显著的拮抗的交互作用.这种交互作用可以提高寄主植物的防御能力,减少寄生植物对寄主植物的损伤.     

温度对莲草直胸跳甲成虫繁殖特性和卵孵化的影响

莲草直胸跳甲是恶性入侵杂草喜旱莲子草的有效天敌。为探明莲草直胸跳甲成虫繁育的适宜温度条件和卵的低温冷藏适期,本文研究了莲草直胸跳甲成虫在25、27、30、32、35℃下的存活、取食和产卵特性及卵在15℃下冷藏不同时期的孵化率。结果表明:在25～35℃,莲草直胸跳甲成虫的生存曲线差异显著;随着温度的升高,雌雄成虫寿命呈缩短趋势,表现为25℃>32℃>35℃;但27和30℃的生存曲线与25和32℃差异均不显著。温度对莲草直胸跳甲成虫的取食量和产卵量均有显著影响,在25～35℃,随着温度的升高,跳甲的取食量和产卵量呈下降趋势;成虫期取食量、日均产卵量和世代产卵量表现为25℃>27℃、30℃>32℃>35℃;成虫期取食量和世代产卵量呈显著正相关,相关系数为0.960。将莲草直胸跳甲卵在15℃下冷藏1～10d后转移至25℃,其孵化率均可达100%,但孵化进度则有差异,孵化高峰期随着冷藏时间的延长而提前。与未经冷藏的卵(对照)相比,在15℃下冷藏1d,莲草直胸跳甲卵的始孵化日提前1d,但高峰期不变,均在第5天;在15℃下冷藏4、7和10d后,其孵化高峰期分别较对照提前1、2和3d。可见,在25～35℃时,25℃是莲草直胸...     

入侵植物水花生解剖学和组织化学染色研究

水花生(Alternanthera philoxeroides)因其表型可塑性、高生长速率和快速无性繁殖能适应水、陆生境。该文利用光学显微镜和荧光显微镜对水、陆生境的水花生不定根、茎解剖结构、组织化学特征及质外体通透性进行了研究。结果表明:(1)水生境下,其不定根皮层中具较大裂生型通气组织,无次生生长,内皮层具凯氏带且栓质化,皮层和皮下层明显木质化。(2)在陆生环境下,其不定根有次生生长,胞间具通气组织,内皮层具凯氏带且栓质化,皮层和皮下层略木质化;此外,不定根还具额外形成层,产生次生维管束、薄壁组织和不定芽;多年生不定根中具直接分裂的薄壁组织,周皮具凯氏带,且栓质化和木质化。(3)水、陆生境下,其匍匐茎具髓和中空髓腔,发生次生生长,具裂-溶生型通气组织、单层内皮层、厚角组织和木质化且栓质化的角质层,陆生匍匐茎周皮栓质化且木质化。(4)水花生质外体屏障结构组成复杂,黄连素无法穿透质外体屏障结构。水花生的上述解剖学特征,是水花生适应水、陆生境的有力证据。     

THE EFFECT OF LIGHT ON THE CELLULAR COMPONENTS OF POLARIZED GROWTH IN BEAN INTERNODES

First internodes of light-grown bean seedlings exposed to supplementary red and far-red light and those of dark-grown seedlings were sectioned and studied to determine the effects of irradiation on the cellular components of polarized growth. Cell counts and measurements of epidermis, cortex, and pith are given. Increased length of internodes of far-red-treated plants was caused by both increased rate and increased duration of cell elongation. The effect of far-red light is interpreted as a reversal of the accelerating effect of light upon cell maturation. It is suggested that investigations of the mechanism of the red, far-red response of stems be concerned with the processes involved in cell elongation. In darkness, rate and duration of cell division as well as rate and duration of cell elongation were greater than in any of the irradiated plants, indicating that only part of the photocontrol of stem elongation is mediated through the red, far-red system.     

Decomposition dynamics of invasive alligator weed compared with native sedges in a Northland lake

Invasive weeds have been shown to alter ecosystem processes such as decomposition and nutrient cycling. However, little is known about the effects of introduced biocontrol agents on these processes. This study examined the effects of alligator weed (Alternanthera philoxeroides) and its biocontrol agent, the alligator weed flea beetle (Agasicles hygrophila), on nutrient cycling in a northern New Zealand lake. Alligator weed litter decomposed significantly faster than either of two native sedge species (Schoenoplectus tabernaemontani, Isolepis prolifer) in a litterbag experiment. In addition, the presence of the alligator weed flea beetle resulted in large amounts of decaying alligator weed litter entering the lake in early summer. Both the timing and magnitude of this litter input were uncharacteristic of seasonal biomass dynamics of the native sedges. Combined with alligator weed?s rapid decomposition, this indicates altered patterns of nutrient cycling at the lake, with potential flow-on effects including facilitation of further weed invasion.     

Matrix analysis to model the invasion of alligatorweed (Alternanthera philoxeroides) on Kentucky lakes

Aims Alligatorweed (Alternanthera philoxeroides (Mart.) Griseb.) is an invasive species indigenous to South America. With its rapid invasion of southeastern US waterways, understanding the invasiveness of this plant species is critical for providing possible mechanisms of prevention for resource managers. The aim of this project is to use a matrix model to study the invasion dynamics of alligatorweed under both terrestrial and aquatic environments. The use of this model allows for a deeper understanding of the invasiveness and life history–stage structure of alligatorweed. In particular, matrix analysis can further test the hypothesis that certain life stages of alligatorweed might be more sensitive to control and management.Methods A greenhouse experiment was conducted to study the spread of alligatorweed under both aquatic and terrestrial environments. Utilizing the growth data obtained during the summer of 2010, matrix analysis was used to model the growth of alligatorweed for six different treatments. Transition matrices were generated based on plant measurements taken at different life stages defined by the number of leaves or nodes. These matrices are population projection models whose eigenvalues represent the growth rate of alligatorweed. A high growth rate is a key feature of successful invaders. Residuals were calculated and sensitivity analysis was performed to test the accuracy of the model and importance of each life stage over the entire life cycle of alligatorweed.Important findings The results of this study indicate that in the aquatic habitat, plants at their early life cycle stage are most sensitive to potential control measures. Conversely, in the terrestrial habitat, the most sensitive stage of alligatorweed is at its late life cycle stage, characterized with large-sized plants, thus suggesting the best timing for management and eradication of this invasive species.     

空心莲子草叶甲室内大量繁殖研究

为了大量繁殖供环境释放的空心莲子草叶甲Agasicles hygrophila以实现空心莲子草区域减灾, 我们探索出室内大量饲养与繁殖空心莲子草叶甲的方法与流程, 包括用叶片法或苗水培法孵化卵粒、用盒养法饲养各龄幼虫与成虫并供成虫产卵、用栽培活苗笼养法化蛹羽化。在室内成虫终日均能取食、交配、产卵, 产卵前期约4～5 d, 产卵高峰期在羽化后第7～24 天, 每雌平均产卵21.08块, 约570粒。盒养法叶片平均可着卵4.28块, 叶背与叶面着卵量相近; 笼养法叶片平均着卵为1.46块, 卵主要产于叶背。盒养法与笼养法得到的卵孵化率分别为94.02%与92.50%。空心莲子草叶甲除化蛹需在栽培活苗上完成外, 各龄幼虫与成虫均可用离体新鲜苗盒养法密集饲养。初孵1龄幼虫转株（叶）期、3龄老熟幼虫转化蛹苗期是室内大量饲养与繁殖空心莲子草叶甲的关键时期, 高密度成功饲养与繁殖空心莲子草叶甲的最适化蛹接虫量是每株8头, 产卵期雌虫的最适密度是每株5头。     

Ecologically based differences in the structure of grass stem

A quantitative anatomical study of the stem structure of grasses of various ecological groups: xerophytes, mespohytes, ephemers, hydrophytes and psammophytes (a total of 30 species) was carried out. The proportions of the various tissues in the stem were expressed as a percentage of the cross-sectional area of the stem. Stems of hydrophytes were found to have only small proportion of mechanical (4-8%) and conducting (2-5%) tissues but a large pro. portion of parenchyma (85-93% - primary cortex and basic parenchyma) and air system (38-40% - parenchyma channels or specialized aerenchyma). The stems of xerophytes possess a highly developed sclerenchyma (30-50%) and vessel bundles (6-13%) while the parenchyma is less developed (36-60%). The cells of the stems of hydrophytes are larger than those of xerophytes, but the cell membranes are thinner. The structure of mesophytes is intermediate between that of hydrophytes and xerophytes and the structure of ephemers is very similar to that of mesophytes. Psammophytes differ from xerophytes in having more mesomorphous features.     

空心莲子草茎的解剖结构对不同水湿生境的适应研究

研究了空心莲子草茎的解剖结构对水分变化的适应,这些空心莲子草生活在因水分差异而形成的3种生境类型中。对茎表蜡质层厚度、髓腔面积/髓部面积、厚角细胞层数、厚角细胞壁厚、韧皮纤维束数、韧皮纤维壁厚、导管束数、导管腔大小8个结构参数的分析结果表明:茎的全部结构参数随水分条件的变化都有显著或极显著的差异,其趋异程度的大小顺序是,导管腔大小>厚角细胞壁厚>蜡质层厚度>髓腔面积/髓面积>韧皮纤维细胞壁厚>韧皮纤维束数>厚角细胞层数>导管束数;水分变化对机械组织细胞壁结构影响较大,而对细胞数量的影响较小;茎的结构在旱生生境中变异较大,保证了它对不均一环境的适应;空心莲子草茎的结构既具有旱生性特点又具有水生性特点,其结构究竟朝哪个方向发展,取决于环境水分条件。从茎的结构上看,治理该种应以限制其导管腔和髓腔分化为主要手段。     

ASSOCIATION OF α-AMYLASE WITH CELLULAR AUTOLYSIS IN PEA STEM TISSUES

Increased activity of α-amylase in bean stems occurred during cellular autolysis in the pith region. In etiolated pea seedlings, α-amylase activity increased sequentially in the first, second, and third internodes. In light-grown seedlings, the increase was initially observed in the first internode, then simultaneously in the second and third internodes. In all internodes, these changes were observed in regions undergoing cellular autolysis in the cortex region. As in bean hypocotyls, α-amylase activity occurred in tissues virtually devoid of starch. Sequential accumulation and then decline in protein and sugar concentrations in each internode indicate a remobilization of materials from nongrowing regions of the stem. These results are consistent with the hypothesis that regulation of α-amylase activity is related to this remobilization.     

双穗雀稗(Paspalum distichum)通透性生理和茎解剖结构补充研究

双穗雀稗根外皮层,茎角质层和茎节中的质外体屏障结构阻挡黄连素示踪液透过植物体。茎中机械组织包括周缘厚壁机械组织层,厚壁组织层和维管系统,髓部和皮层的蜂窝状厚角组织。茎中通气组织包括茎节间髓部和皮层的蜂窝状通气组织,茎节内的通气组织。双穗雀稗茎节间具有外侧、内侧和维管系统的质外体屏障,以及茎节周围质外体屏障的封闭结构。因此,该植物体完善的机械组织、通气组织、质外体屏障结构及其离子不通透性是其适应湿地环境的重要结构。