Ecology of deepwater rice-fields in Bangladesh 5. Mineral composition of the rice plant and other aquatic macrophytes

The mineral composition of deepwater rice (cultivar Kartik Sail) was studied during 1986 in a field near Sonargaon, Bangladesh, which is flooded by water from R. Meghna. Samples were taken four times, once prior to flooding and three times during the flood season. On two of the latter days (10 August = end of first flood peak, 23 September = second flood peak) the study was extended to other components of the ecosystem (sediments + soil, water, other aquatic macrophytes). On 23 September, 32% of the mass of the plant was out of water, 65% in water and 3% in sediment/soil. There were marked differences between elements in their pattern of accumulation by deepwater rice through the season. In comparison with the final totals for each element, about 48% of N, but only 11% of P and 10% of Na had been accumulated by the time the floodwater had arrived. The aquatic roots doubled in mass between the times of the two flood peaks and it is suggested that much of the P taken up by the plant may reach the plant via its aquatic roots after having becoming mobilized and released to the water when sediments become anaerobic. In comparison with other parts of the plant, Na was always much higher in the stem and Zn in the basal roots.Other aquatic macrophytes (weeds) increased from 0.40% of the mass (dry weight) of deepwater rice on 10 August to 4.0% on 23 September. However their content of each element (% dry weight) was considerably higher than that in deepwater rice, so they may at times compete effectively with the rice for nutrients. During the flood period (to 23 September) weeds accumulated 16% of the N accumulated by rice during the same period.     

虾钳菜披龟甲生物学的研究

虾钳菜披龟甲是湘南危害空心莲子草的重要害虫,1年发生4代,以成虫越冬。成虫产卵期长达25～45天,平均每雌产卵64粒。各虫态历期,因代别而异,卵期在3～9天,幼虫期在16～26天,蛹期3～8天。成虫寿命长达60天或200余天（越冬代）。发生为害与温、湿度关系密切,高温、干旱对其不利。     

温度对2个地理种群莲草直胸跳甲成虫产卵量及存活率的影响

【背景】温度对莲草直胸跳甲种群增长具有重要作用,了解引进的莲草直胸跳甲泰国种群的温度适应性,同时与福州本地种群相比较,可以有效地利用其防治空心莲子草。【方法】采用室内继代饲养的方法,设置3个温度,对莲草直胸跳甲福州本地种群和泰国热带种群的成虫产卵量及存活率进行了研究。【结果】在相同温度条件下,泰国热带种群的繁殖力显著高于福州本地种群。随着温度的升高,泰国热带种群和福州本地种群的产卵量均有显著下降,但泰国热带种群的产卵量均稍高于福州本地种群。在3个试验温度下,莲草直胸跳甲泰国热带种群的成虫寿命较福州本地种群的寿命长。【结论与意义】莲草直胸跳甲泰国热带种群对温度的适应性和繁殖力强,更容易构建种群,有利于对空心莲子草的生物防治。     

Effects of parental light environment on growth and morphological responses of clonal offspring

• Environments experienced by parent ramets of clonal plants can potentially influence fitness of clonal offspring ramets. Such clonal parental effects may result from heritable epigenetic changes, such as DNA methylation, which can be removed by application of DNA de‐methylation agents such as 5‐azacytidine.
• To test whether parental shading effects occur via clonal generation and whether DNA methylation plays a role in such effects, parent plants of the clonal herb Alternanthera philoxeroides were first subjected to two levels of light intensity (high versus low) crossed with two levels of DNA de‐methylation (no or with de‐methylation by application of 5‐azacytidine), and then clonal offspring taken from each of these four types of parent plant were subjected to the same two light levels.
• Parental shading effects transmitted via clonal generation decreased growth and modified morphology of clonal offspring. Offspring responses were also influenced by DNA methylation level of parent plants. For clonal offspring growing under low light, parental shading effects on growth and morphology were always negative, irrespective of the parental de‐methylation treatment. For clonal offspring growing under high light, parental shading effects on offspring growth and morphology were negative when the parents were not treated with 5‐azacytidine, but neutral when they were treated with 5‐azacytidine.
• Overall, parental shading effects on clonal offspring performance of A. philoxeroides were found, and DNA methylation is likely to be involved in such effects. However, parental shading effects contributed little to the tolerance of clonal offspring to shading.

     

空心莲子草雄蕊和雌化雄蕊发育的比较研究

采用形态解剖和石蜡切片法,对空心莲子草雄蕊和雌化雄蕊的形态和结构的发育过程进行了观察.结果显示:(1)在形态上,空心莲子草两性花雄蕊由聚药雄蕊和无药雄蕊构成,二者相间而生成一轮;而空心莲子草雌化雄蕊花的雌化雄蕊由雌化雄蕊和无药雄蕊构成,雌化雄蕊的外形如雌蕊状,其外轮为无药雄蕊,二者前后对应而生,成二轮;(2)在结构上,...     

空心莲子草营养器官结构与三萜皂苷动态积累的关系

采用组织化学定位、显微制片技术和三萜皂苷定量分析方法对空心莲子草营养器官结构与三萜皂苷类物质积累关系进行了研究。结果表明：空心莲子草宿根、根状茎、茎和叶中均有三萜皂苷物质的积累,叶和根状茎内含量十分丰富。在相同采收期内含量依次为：叶＞根状茎＞根＞茎,叶中主要积累于栅栏组织细胞内。空心莲子草的根和根状茎横切面均属于异常结构,具有成同心环状排列的三生维管束。在宿根和根状茎的次生韧皮部、栓内层、三生韧皮部和结合组织内均有三萜皂苷的分布,三生结构在宿根和根状茎中占有主要地位,是三萜皂苷积累的主要场所。在不同采收期内叶、根状茎和根中三萜皂苷的积累趋势基本一致,均随生长期的增加而递增。空心莲子草茎的横切面由表皮、皮层、维管束和髓腔组成,仅部分皮层细胞和初生韧皮部内有三萜皂苷分布。     

空心莲子草地下茎克隆繁殖特征

空心莲子草是一种原产于南美洲的苋科多年生草本植物,目前在许多地方已经成为一种危害十分严重的外来入侵植物。通过地下茎等营养器官进行无性繁殖是其主要繁殖方式。本文以空心莲子草的地下茎为实验材料,对其克隆繁殖特征进行了研究。研究结果表明:(1)地下茎的节是克隆繁殖的必要条件,节的有无决定克隆繁殖是否发生;(2)地下茎可以通过控制单位节上的出芽率来调节其克隆生长过程,从而使克隆繁殖结果更有利于整个种群的生长;(3)地下茎的粗细程度对其克隆繁殖也有显著影响。空心莲子草地下茎的单位节数与其单位节出芽率、无性系小株的高度和地上部分的节数之间存在密切联系。     

湖南湘潭地区空心莲子草叶甲自然种群的越冬虫态与越冬生境

卷蛾分索赤眼蜂Trichogrammatoidea bactrae Nagaraja和拟澳洲赤眼蜂Trichogramma confusum Viggiani是小菜蛾Plutella xylostella (L.)的优势寄生蜂。本研究利用“Y”型管测定了2种赤眼蜂对小菜蛾P. xylostella利他素-卵表和腹部鳞片13种饱和烷烃的嗅觉反应。结果显示: 卷蛾分索赤眼蜂交配雌蜂进入2, 6, 10, 14-四甲基十五烷、正十五烷、正十七烷处理区的百分数分别为80.65%, 68.75%和66.67%, 表明这3种烷烃对卷蛾分索赤眼蜂交配雌蜂有显著的吸引作用, 其他10种饱和烷烃对卷蛾分索赤眼蜂雌蜂无明显作用。拟澳洲赤眼蜂进入2, 6, 10, 14-四甲基十五烷、正三十五烷和正十五烷处理区的数目分别占84.38%, 70%和62.16%, 表明其对拟澳洲赤眼蜂交配雌蜂起着显著的吸引作用, 而另外10种烷烃对拟澳洲赤眼蜂雌蜂无作用。卷蛾分索赤眼蜂和拟澳洲赤眼蜂未交配雄蜂进入13种烷烃处理区和对照区的时间均无显著差异, 表明利他素各组分对2种赤眼蜂未交配雄蜂均无吸引作用。     

物种多样性及环境因子对入侵植物空心莲子草群落稳定性的影响

为探讨外来入侵植物空心莲子草群落稳定性的驱动机制,在中国21°N-37°N范围内设置73个面积为10 mX 10 m的空心莲子草群落样地(陆生39个,水生34个),分别计算其Godron群落稳定性坐标值和4个α-物种多样性指数,并测定各样地的7项环境因子(经度、纬度、海拔、铵态氮、硝态氮、年均温和年均降雨量),采用回归...     

酸雨和采食模拟胁迫下克隆整合对空心莲子草生长的影响

研究表明克隆整合可以显著提升异质环境中克隆植物的生长,然而当克隆植物遭受均质环境压力时,整合对植物生长影响的研究相对较少。本文以典型入侵克隆植物空心莲子草（Alternanthera philoxeroides）为例,研究均质环境压力酸雨和采食模拟胁迫对空心莲子草生长的影响,以及克隆整合在空心莲子草适应不利环境过程中所起的作用。酸雨设3种浓度梯度：pH值3.5 、pH值4.5和 pH值6.5（对照）;采食设3种水平：不去叶、去叶50%和去叶90%;整合水平：匍匐茎切断和连接。结果表明：无论保持或切断匍匐茎的连接,酸雨处理都不影响空心莲子草生物量。当保持匍匐茎连接时,pH值4.5酸雨处理增加了空心莲子草匍匐茎长度和分株数目,因此,低度酸雨可能对空心莲子草生长有一定的促进作用。同样,无论匍匐茎是否被切断,采食处理都显著降低了空心莲子草克隆片段生物量,而显著增加了叶片数目。当切断匍匐茎连接时,采食处理使空心莲子草分株数目显著增加。本文得出的结论是：空心莲子草能较好地适应酸雨和采食的环境压力,当空心莲子草全部克隆分株遭受均质环境胁迫时,克隆整合并不能显著改善它的生长。