白背飞虱种群动态的模糊聚类分析

<正> 白背飞虱Sogatalla furcifera Horv(?)th为害水稻日趋严重,分析了解其种群发生动态,对于搞好测报和指导防治是十分重要的。种群动态包括数量动态、空间动态、时间动态,三者之间互为依存,互相影响。种群在数量上的波动,常常直接引起空间的扩张或收缩。诸环境因子随时间序列的变化,也往往导致种群个体在空间或散播、或聚集的行为习性的改变,从而使其空间格局相应发生变化。种群动态是一个具有模糊性的问题。就数量动态而言,什么样的动态称为“猖獗”或“凋落”;就空间动态而言,什么样的格局称为“随机的”,“聚集的”,“均匀的”等等。这些概念都没有明确的外延。因此,用     

昆虫种群的空间、数量、时间结构及其动态

本文讨论了昆虫种群动态的内容,把种群动态概括地分为空简、数量与时间三个方面。生态学上的空简系具有实质结构的场所,种群空间动态主要包括扩散、分布及生态特性的地方分化。作者根据种群的特性保存及特性成长与变动环境的关系,提出了变境成长的概念。 数量结构除了种群年龄、性比、滞育体等指标外,并注意到与生殖力及化性(Voltinism)相联系的种群遗传结构。某些昆虫种群通过作用于繁殖及死亡的反馈机制,在一定程度上可以调节其数量,影响到种群的数量变动形式。 时间连贯性及时间序列系本文在种群时间动态中所讨论的两个主要问题,时间是作用种群动态的一个因素,具有一定的形态外貌,种群的时间外貌与结构反映了种群时间动态的现实性,时间的连贯及序列共同形成了种群动态在时间上的必然途径及其与环境因素相互之间的顺序关系。 空、数、时变化各沿着一定的序列进行,这些序列所以被看成是预测害虫动态的基础,系由于种群任一动态都是在一定的种群结构基础上,以及空间因素与时间因素特定联系的形式下发生的,不同的联系产生不同的生理生态学后果,因而使得此复杂的种群动态问题,有可能借助于生物数量方法,作出种群的数量及分布预测。     

动物种群动态模型研究的进展与展望

动物种群动态模型经历了百余年的发展, 文章回顾和总结了其取得的丰富成果, 并展望其未来发展方向。种群动态包括种群数量动态和时空分布动态, 根据其形式和研究内容,可以将种群动态模型分为数量模型和空间模型。数学模型通过数学方程模拟种群数量的变化趋势, 它包括“J”型增长模型、“S”型增长模型和Lotka-Voltera模型等; 空间模型侧重于种群和生境的空间化表达, 包括异质种群模型、空间精确性种群模型和基于个体的种群模型等。种群动态模型在物种保护、气候变化和土地管理等方面都有成功应用。目前, 种群动态模型的空间描述能力不足, 未来与地理信息技术结合将有助于种群动态模型的进一步发展。     

十种濒危植物的种群生态学特征及致危因素分析

从保护生态学的观点出发,对10个濒危植物的地理分布、生境条件、种群数量动态、空间分布格局、种间关系、种群的生命表、生殖力表、有性生殖、无性繁殖等种群生态学特征进行了综合分析。论述了濒危植物以光合、蒸腾、呼吸为主的生理生态学规律;预测种群数量动态的Leslie矩阵、刻画种群空间分布格局的模型、刻画种群生长和数量增长的Logistic方程和多元回归模型所反映出的生态学特征。分析了濒危植物种群动态、发展趋势以及在内外因素作用下的生态学特征和过程。针对濒危植物保护研究存在的问题,从生态学角度对我国未来濒危植物保护研究应注意的问题提出了建议。     

科尔沁沙地草地植被恢复演替进程中群落优势种群空间分布格局研究

通过对处于流动沙地、半固定沙地和固定沙地等不同恢复演替阶段的群落的取样调查 ,研究了科尔沁沙地草地植被恢复进程中群落优势种群的空间分布格局及其动态变化。运用扩散系数、聚集指数、平均拥挤度、聚块性指数、Green指数、聚集强度、Poisson分布和负二项分布的 χ2 拟合检验等 7项指标 ,对群落优势种群的分布格局的研究结果基本一致 ,大多数物种的空间分布呈显著的聚集分布。在演替进程中种群格局强度的变化和群落总体聚集程度的变化与种群动态和群落结构的空间异质性相对应 ,较高的聚集程度是种群分布斑块化和群落结构的空间异质性的反映 ,随着演替进展 ,优势种的种群数量扩展 ,但种群分布的聚集强度下降 ,群落结构的空间异质性降低。在 7种测定分布格局的指标中 ,聚块性指数、Green指数和聚集强度是无量纲的指标 ,其大小不受种群大小的影响 ,其变化可以较好地指示格局强度本身的变化 ,并与种群动态和群落结构变化相联系     

乌兰布和沙漠天然梭梭种群动态及空间分布

为进一步明晰乌兰布和沙漠天然梭梭(Haloxylon ammodendron)种群动态和空间分布特征,该研究以乌兰布和沙漠天然梭梭林为研究对象,采用静态生命表、存活曲线、生存分析和空间分布格局指数等方法分析种群动态与内在生活史特征和外在干扰之间的互动关系,探讨梭梭种群波动特征及其存续机制,以揭示天然梭梭种群动态及空间分布特征,为梭梭种群的合理保护与种群恢复提供依据。结果表明:(1)乌兰布和沙漠天然梭梭种群龄级结构呈倒“J”形,为增长型,但相邻龄级个体数量波动性较大;种群年龄结构数量变化动态指数V_(pi)=17.43,受随机干扰时种群年龄结构动态指数V_(pi)′=1.02,种群年龄结构对随机干扰的敏感性指数P_(max)=5.88,说明种群对外界干扰较为敏感。(2)研究区天然梭梭种群的存活曲线趋于Deevey-Ⅱ型,各年龄级种群有相近的死亡率;生存函数、累积死亡率、死亡密度在第Ⅰ~Ⅹ龄级(基径<10 cm)变化较大,且在第Ⅰ~Ⅸ龄级危险率较高;生存函数、累计死亡率、死亡密度在第Ⅺ~ⅩⅧ龄级(基径≥10 cm)趋于稳定,危险率在第Ⅹ龄级后逐渐增加,种群动态呈现出低龄级间个体数量波动大,高龄级衰退的特征。(3)研究区天然梭梭种群密度在328.57~942.86株/km^(2)之间,平均为706.34株/km^(2),种群空间分布大多呈聚集分布。研究表明,乌兰布和沙漠在现阶段环境气候条件下,适宜梭梭种群的生长,而且在不受人为干扰的情况下,梭梭种群能够稳定存续,可以抵抗一定的气候风险。建议减轻人为干扰对低龄级种群数量的影响,在局部梭梭林衰退严重区可参考天然梭梭种群密度与空间分布型建植人工梭梭林。     

鄱阳湖区灰鹤越冬种群数量与分布动态及其影响因素

1998—2011年,采用地面同步调查法开展了鄱阳湖越冬灰鹤种群监测,并整合1984—2011年鄱阳湖国家级自然保护区历年的越冬灰鹤最大种群数量,分析了鄱阳湖灰鹤越冬种群动态以及影响其数量变化与空间分布的环境因素。结果表明,近13年来鄱阳湖区越冬灰鹤种群平均数量为(2 335±651)只,种群数量呈增长趋势,2011年冬季记录到最大种群数量7 640只。灰鹤越冬种群数量与10月平均最低气温以及10月平均气温存在显著正相关,与10月平均最大风速存在显著负相关,与各月的平均水位没有显著的相关性。每年冬季灰鹤在鄱阳湖呈聚集型分布。大湖池、大莲子湖、三湖、汉池湖、企湖、珠湖、南湖(共青)、大汊湖等8个湖泊是灰鹤的重点活动区,(74.9±5.6)%的越冬灰鹤分布在保护区之外。灰鹤的空间分布与滩地面积存在显著的正相关,与农田面积、人口密度、村庄数量、8月份初级生产力、11月份初级生产力等环境因子存在显著负相关。滩地面积是影响灰鹤空间分布的重要因子,对灰鹤利用频次空间变化的解释率为15.0%,与11月份初级生产力共同解释了灰鹤年平均群体数量空间变化的24.6%。如竞争、小生境结构、干扰等局地尺度的环境要素对灰鹤空间分布的影响研究将有助于更全面地认识鄱阳湖越冬灰鹤种群动态的影响机制。     

陕西不同地区栓皮栎种群年龄结构动态模型的研究

栓皮栎种群动态模型能阐明其自然种群动态的规律,揭示种群的内在机制和对种群行为进行预测。矩阵模型是一种i状态分布方法,依靠矩阵形式来处理种群的特征分布,可以模拟和预测种群中各个年龄组的数量动态和年龄结构的变化,它能够从目前已知的年龄结构及种群的生存率和生育率,来推测种群的未来年龄结构。在研究栓皮栎种群动态时,也借用该模型对栓皮栎种群各年龄组的结构和数量动态作出预测。Leslie矩阵模型就是该模型中的一种,利用该模型的理论和方法,对栓皮栎种群的自然变化过程进行了模拟和预测。结果发现,从分布中心到分布边缘,随着生境的差异,栓皮栎种群产生幼苗的年龄级、内禀增长率、生育力和幼苗的数量都发生变化,预测结果与实际反映的情况基本一致,表明Leslie矩阵模型是一种较为理想的反映种群动态的模型。模型表达形式简单,参数生态学意义确切,应用精度高,从而达到准确预测栓皮栎种群动态的目的。     

三峡大坝下游残存疏花水柏枝种群结构和动态

在三峡大坝下游的湖北宜都关洲设立1个40 m×40 m的固定样地,利用高度分级,比较2008与2009年两年间的疏花水柏枝（Myricaria laxiflora）种群数量动态,并运用点格局的Ripley＇s K函数分析了其空间格局变化及种群更新特征。结果表明,疏花水柏枝幼苗数量较少,种群更新存在一些障碍。空间分布格局与空间尺度及植株的大小密切相关。种群总体呈集群分布,各大小级多在9 m时出现最大的聚集强度,随着大小级的增加,聚集强度有减弱的趋势。幼苗与中株有较强的正关联。由于种群现有生境变化较大,应考虑迁地保护,并对原生种群加强长期动态监测;同时,开展疏花水柏枝适应机理研究,实施科学保护。     

《昆虫种群生态学——基础与前沿》

该书由科学出版社2005年出版，徐汝梅、成新跃编。介绍了昆虫生态学的基础与前沿，包括昆虫种群数量的时、空动态规律、调节机制及有关的研究方法。同时，还特别强调了空间生态学在昆虫种群生态学研究中的应用;并介绍了当前昆虫种群生态学的研究热点，如种群变动的遗传机制、昆虫与植物的协同进化等；结合重大的生态学问题，对昆虫暴发的一般理论、昆虫濒危与生物多样性保育、种群扩散与生物入侵、全球变化与昆虫种群动态等进行了论述。     

麦蚜聚集与扩散行为的初步研究

研究种群空间格局(spatial pattern)为我们了解昆虫的有关行为提供了一种有效途径,它一方面揭示了种群个体在某一时刻的行为习性,另一方面描述了该时刻中有关诸环境因素     

Distribution and diversity of Russian wheat aphid (Hemiptera: Aphididae) biotypes in South Africa and Lesotho

Russian wheat aphid, Diuraphis noxia (Kurdjumov) (Hemiptera: Aphididae) was recorded for the first time in South Africa in 1978. In 2005, a second biotype, RWASA2, emerged, and here we report on the emergence of yet another biotype, found for the first time in 2009. The discovery of new Russian wheat aphid biotypes is a significant challenge to the wheat, Triticum aestivum L., industry in South Africa. Russian wheat aphid resistance in wheat, that offered wheat producers a long-term solution to Russian wheat aphid control, may no longer be effective in areas where the new biotypes occur. It is therefore critical to determine the diversity and extent of distribution of biotypes in South Africa to successfully deploy Russian wheat aphid resistance in wheat. Screening of 96 Russian wheat aphid clones resulted in identification of three Russian wheat aphid biotypes. Infestations of RWASA1 caused susceptible damage symptoms only in wheat entries containing the Dn3 gene. Infestations of RWASA2 caused susceptible damage symptoms in wheat entries containing Dn1, Dn2, Dn3, and Dn9 resistant genes. Based on the damage-rating scores for the seven resistance sources, a new biotype, which caused damage rating scores different from those for RWASA1 and RWASA2, was evident among the Russian wheat aphid populations tested. This new biotype is virulent to the same resistance sources as RWASA2 (Dn1, Dn2, Dn3, and Dn9), but it also has added virulence to Dn4, whereas RWASA2 is avirulent to this resistance source.     

区域农田景观格局对麦蚜种群数量的影响

明确农田景观格局对麦田蚜虫种群的影响,是开展区域性害虫生态调控的重要理论依据之一。以区域性小麦种植区为研究对象,基于遥感影像与土地覆盖分类数据以及田间调查的蚜虫种群数据,计算景观格局指数,使用负二项分布的广义线性模型从农田景观、非作物生境景观和区域景观3个方面分析了区域农田景观格局对麦田蚜虫种群的影响。结果表明,蚜虫种群的数量与草地的平均斑块面积和最大斑块指数显著正相关,与县域的平均几何最邻近距离和面积加权平均斑块面积显著负相关,与耕地的面积加权平均斑块面积显著负相关,与耕地的斑块密度显著正相关。草地斑块面积的增大、区域景观与耕地的破碎化、区域景观的聚集会促进蚜虫种群数量的增加。使用草地的斑块面积和最大斑块指数、区域景观的平均几何最邻近距离可以预测蚜虫种群的发生量。非作物生境草地的斑块面积、耕地的破碎化、区域景观的空间分布及破碎化是影响麦田蚜虫种群发生的重要景观因素。     

麦长管蚜的抗药性研究

麦蚜在我国分布广、为害重,又传播病毒病,是小麦的重要害虫。近年麦蚜的发生为害有增长的趋势,有些地方反映农药防效下降、用药次数增加。本文介绍1983—1987年5年中采用6个省市的8个地区麦蚜种群对6种农药进行了点滴法毒力测定。探明了张掖和高台麦长管蚜[sitobion avenae (Fab.)]对氧化乐果产生10—15倍抗药性。用英国Rothamsted试验站的比色板试验法进行生化测定,结果同生物测定一致。作者认为该法是一种探测蚜虫抗药性简便可行的定性方法。用北京室内饲养的麦长管蚜以16种新老农药品种用点滴法进行了敏感水平测定,建立了麦长管蚜对16种供试农药的毒力基线。这对探测麦蚜抗药性、监测其抗药性动态变化打下一定基础。通过室内毒力测定、田间药效试验和20多万亩的大面积示范推广,作者提出杀螟松是防治麦蚜较理想的候选农药品种,以替换当前使用的药效已下降的乐果和氧化乐果、替换当前使用的毒性很高的杀虫剂甲胺磷。     

Assessment of cotton aphids, Aphis gossypii, and their natural enemies on aphid-resistant and aphid-susceptible wheat varieties in a wheat–cotton relay intercropping system

The cotton aphid, Aphis gossypii Glover (Homoptera: Aphididae), is an important cotton pest in northern China, especially in the seedling stage of cotton. After large scale commercial use of transgenic Bt cotton, cotton aphids became one of the most important cotton pests. A 2‐year study was conducted to evaluate the role of four winter wheat varieties that were resistant or susceptible to wheat aphid, Sitobion avenae Fabricius (Homoptera: Aphididae), in conserving arthropod natural enemies and suppressing cotton aphids in a wheat–cotton relay intercropping system in northern China. The results indicated that wheat–cotton intercropping preserved and augmented natural enemies more than a monoculture of cotton. The density of natural enemies in cotton was significantly different among relay‐intercropping fields with different wheat varieties. The highest density of natural enemies and low cotton aphid populations were found in the treatment of cotton in relay intercropped with the wheat variety Lovrin10, which is susceptible to wheat aphid. The lowest density of predators and parasitoids associated with high cotton aphid populations were found with the wheat variety KOK1679, which is resistant to wheat aphid. The results showed that wheat varieties that are susceptible or moderately resistant to wheat aphid might reduce cotton aphids more effectively than an aphid‐resistant variety in the intercropping system by enhancing predators to suppress cotton aphids during the cotton seedling stage.     

Identification of Russian wheat aphid (Homoptera: Aphididae) populations virulent to the Dn4 resistance gene

The Russian wheat aphid, Diuraphis noxia (Mordvilko), is a serious worldwide pest of wheat and barley. Russian wheat aphid populations from Hungary, Russia, and Syria have previously been identified as virulent to D. noxia (Dn) 4, the gene in all Russian wheat aphid-resistant cultivars produced in Colorado. However, the virulence of Russian wheat aphid populations from central Europe, North Africa, and South America to existing Dn genes has not been assessed. Experiments with plants containing several different Dn genes demonstrated that populations from Chile, the Czech Republic, and Ethiopia are also virulent to Dn4. The Czech population was also virulent to plants containing the Dnx gene in wheat plant introduction PI220127. The Ethiopian population was also virulent to plants containing the Dny gene in the Russian wheat aphid-resistant 'Stanton' produced in Kansas. The Chilean and Ethiopian populations were unaffected by the antibiosis resistance in Dn4 plants. There were significantly more nymphs of the Chilean population on plants of Dn4 than on Dn6 plants at both 18 and 23 d postinfestation, and the Ethiopian population attained a significantly greater weight on Dn4 plants than on plants containing Dn5 or Dn6. These newly characterized virulent Russian wheat aphid populations pose a distinct threat to existing or proposed wheat cultivars possessing Dn4.     

Discovery of English grain aphid (Hemiptera: Aphididae) biotypes in China

The English grain aphid, Sitobion avenae (F.) (Hemiptera: Aphididae), is an important pest insect of wheat, Triticum aestivum (L.), in China. Grain aphid biotypes are necessary to breed aphid-resistant wheat varieties; however, none have currently been identified. Here, we describe a method to identify grain aphid biotypes and survey the aphid biotype variation in the wheat growth area of China. Clones of S. avenae were collected from 11 locations in China and used to establish culture populations. These populations were then used to assess the resistance of 12 wheat varieties. Based on resistance responses, seven differential hosts were selected to identify the biotype of S. avenae: Amigo, 'Fengchan No. 3', Zhong 4 wumang, JP1, L1, 885479-2, and 'Xiaobaidongmai'. S. avenae was ultimately classified into five biotypes: EGA I, EGA II, EGA III, EGA IV, and EGA V. These methods provide a mechanism to detect the variation and evolution of grain aphids in different wheat-growing locations and also allow for selection of appropriate aphid-resistant germplasm for wheat breeding of commercial wheat cultivars.     

In vitro selection for Russian wheat aphid (Diuraphis noxia) resistance in wheat (Triticum aestivum)

The Russian wheat aphid (Diuraphis noxia) is a pest on wheat (Triticum aestivum) in many regions of the world. The aphid injects a phytotoxin when it feeds. Identification of somaclonal variants with phytotoxin resistance may shorten development time for resistance. Wheat calli from the susceptible cultivar Stephens were exposed to an extract from the aphid. Five plants were regenerated from 100 treated calli. Resistance to the aphid was observed in both the R₂ and R₃ generations. One of the six R₃ populations had improved resistance for leaf curling and leaf folding, while another had improved response for chlorosis damage. These results indicate that the use of aphid extract on wheat callus offers an alternate method for development of resistance to the Russian wheat aphid.     

Apparent competition or apparent mutualism? An analysis of the influence of rose bush strip management on aphid population in wheat field

Abstract:  Apparent competition, mediated by a shared predator, plays a key role in conservation biological control. Appropriate agroecosystems management may favour this type of indirect interaction. In that context, our aim was to test the effect of rose bush [ Rosa rugosa (Thunb.)] strips on the building up of aphid populations and of their natural enemies in adjacent cereal habitats. Several aphid species are currently found on Rosa sp. including Metopolophium dirhodum (Walker) for which it is a primary host. Aphid predators and parasitoids may build their populations on the aphid population present on Rosa sp. and later on migrate to wheat field during the cereal aphid infestation. Moreover, the flowers of the rose bushes may provide a source of nectar and pollen to these natural enemies. Our experiment was conducted in three rose margin wheat plots with a strip of rose bushes of R. rugosa and three control plots. Plots were compared during 2 years (2003 and 2004). Aphid, parasitoid and predator densities were recorded from May to the harvest of wheat on rose bushes and in wheat. In 2003, the aphid densities were moderate but in 2004, the population of aphid was very high. Even if predator and parasitoids arrived earlier in rose margin field than in control ones, the presence of rose bushes did not influence the aphid population within the field. Metopolophium dirhodum did not seem to migrate from the rose bushes to wheat. The level of parasitism was weak in rose bushes and the natural enemy population was not different in rose margin wheat and in control plots. The causes of the lack of efficiency of this type of management are discussed as well as the high aphid population in wheat in 2004.     

云南两个不同生态区玉米蚜种群动态研究

在2013年5-9月,采取5点取样,对云南省昭通温凉玉米种植区及普洱暖热玉米种植区玉米蚜种群动态进行定期、定点、定株的系统调查,明确云南省两种不同生态条件下玉米种植区玉米蚜发生规律及分布特征,为玉米蚜的防治提供理论依据。结果显示:昭通温凉玉米种植区玉米蚜在玉米各生育期均有发生;玉米蚜在抽雄散粉期主要集中在雄穗为害,籽粒建成期以后转移集中在苞叶及雌穗为害;玉米蚜在玉米田始终呈聚集分布,聚集度呈聚集—扩散—聚集趋势。普洱暖热玉米种植区玉米蚜种群数量在玉米进入籽粒建成期后才有所增长;玉米蚜在籽粒建成期以后主要集中在苞叶及雌穗上为害;玉米蚜在玉米田基本呈聚集分布,聚集度始终呈扩散趋势。两地玉米蚜自然种群消长、垂直分布动态,空间动态均具有一定差异,昭通温凉玉米种植区相对更适宜玉米蚜的发生。