2007－2012 年佛冈县稻飞虱灯下发生期及种群数量动态分析

明确佛冈县稻飞虱灯下发生期及灯诱种群数量动态,对当地稻飞虱的预测预报和防治工作具有重要意义.根据佛冈县2007-2012年白背飞虱和褐飞虱的灯诱数据,分析了该县白背飞虱和褐飞虱的灯下始见日、终见日、发生期及灯诱量等.结果表明在佛冈地区,白背飞虱和褐飞虱混合发生;白背飞虱的灯下始见日集中在3月底至4月上旬,明显比褐飞虱早一个月,终见日均在10月下旬,差别不大;稻飞虱在早稻和晚稻期间均会出现大小不一的灯诱高峰,早稻期间白背飞虱高峰期集中在5月中旬至6月中旬,褐飞虱灯诱高峰期较迟,主要在7月中旬前后;晚稻期间向背飞虱高峰期大多在9月上旬至10月上旬,褐飞虱高峰期在10月份;早稻期间,白背飞虱的灯诱量占绝对优势,晚稻期间褐飞虱的灯诱量上升,与白背飞虱灯诱量基本持平.因此,佛冈县稻飞虱的灯下发生期及种群数量动态在一定程度上可反映当地稻飞虱的发生情况.     

不同水稻品种对白背飞虱取食和产卵选择性的影响

为进一步了解抗虫品种对白背飞虱的抗性机制,运用标准苗期群体鉴定法、蜜露测定法等方法,研究了8个不同抗性水平水稻品种对白背飞虱Sogatella furcifera(Horváth)取食和产卵选择性的影响。结果表明,水稻品种IR54751-2-34-10-6-2、MR1532、Rathu Heenati表现为高抗;IR54742-1-18-12-11-2、IR71604-4-1-4-10-8-5-3-1表现中抗;IR72表现为中感;BG367-7、TN1表现为高感。白背飞虱对MR1532、IR54751-2-34-10-6-2和Rathu Heenati上的取食趋性较弱,这几个品种对白背飞虱取食量的影响最大;MR1532、Rathu Heenati和IR54751-2-34-10-6-2上的卵量显著少于产在对照品种TNI的卵量,IR54742-1-18-12-11-2、IR71604-4-1-4-10-8-5-3-1、IR72上的卵量与产在对照品种TNI上的卵量差异不显著。白背飞虱在抗虫品种上并非完全不取食,只是抗性越强取食量越少;抗性表现为抗的品种对白背飞虱成虫产卵选择性有明显影响。     

The importance of historical ecology for interpreting evolutionary processes in plants of oceanic islands

Oceanic islands and archipelagos are natural laboratories for investigating patterns and processes of evolution. Islands change with the course of time, resulting in a dynamic ontogeny over millions of years. The combined forces of tectonic plate subsidence and erosion from waves, wind, and rainwater bring about substantial geomorphological change over millions of years, until islands eventually disappear under the sea. Added to these long‐term natural changes to the environment of the islands are the changes caused by human activities in recent centuries. After humans reach a previously unpopulated island, they utilize the natural resources for their own survival, cutting forests for making houses, boats, and firewood. The size of the human population and the length of time on the island determine the degree of environmental impact. Evolutionary processes in plants of oceanic islands take place during ontogeny of the islands, resulting in population divergence, speciation, and hybridization. Due to the dramatic alterations suffered by many islands over millions of years, the present patterns of distribution and ecology of species within endemic groups may have little to do with the patterns when the species originated. Understanding these environmental changes is fundamental to infer a founder effect, reasons for levels of genetic variation within and among populations, and modes of speciation. Special caution must be exercised while making comparisons between groups located on islands of different geological ages and that have endured differing environmental modifications from humans. Examples are provided from the Juan Fernández Archipelago and Lord Howe Island.