二化螟寄主种群及种群间生殖隔离形成机制研究

水稻和茭白是二化螟的两种主要寄主植物。经过长期的适应进化,二化螟已分化出水稻种群和茭白种群。国内外的大量研究表明,二化螟水稻种群和茭白种群在形态特征、交配行为、寄主选择性、寄主适应性、田间种群动态、越冬生物学、生理生化及遗传多样性等方面均存在一定差异。二化螟水稻种群和茭白种群的发生期差异、交配节律差异和交配后配子不亲合等可能造成了寄主种群的部分生殖隔离。目前认为,二化螟两寄主种群间仍存在基因交流,处于物种形成的早期阶段,但尚需从寄主种群鉴定、表型差异区分和种群间生殖隔离机制等方面开展深入研究来进一步明确,为理解昆虫同域物种形成机制提供参考。     

交配对广聚萤叶甲成虫耐饥与耐热能力的影响

昆虫交配是一个消耗能量的过程,因此交配后可能对其抗逆能力造成一定的影响。广聚萤叶甲是恶性杂草-豚草的专一性天敌,正常情况下,成虫耐饥饿和耐热能力较强。为明确交配对广聚萤叶甲成虫抗逆能力的影响,本研究观察在一次交配处理后,广聚萤叶甲在饥饿条件下或高温条件下继续存活时间。结果发现,在不提供食物的情况下,交配对雄虫的寿命影响不大,但雌虫的寿命(8.4 d±0.1 d)显著短于对照雌虫(10.8 d±0.1 d)。在高温状态下,无论取食与否,交配都会显著增加广聚萤叶甲雌雄成虫的耐热能力,尤其以雌虫表现更为明显(处理雌虫和对照雌虫存活时间分别为:取食(6.15 d±0.14 d,4.95 d±0.13 d)、不取食(5.55 d±0.13 d,4.81 d±0.11 d)。可见,交配降低广聚叶甲雌虫的饥饿能力,但成虫的耐热能力显著加强。     

广聚萤叶甲成虫交配时长对产卵量与孵化率的影响

【目的】明确不同交配时长对广聚萤叶甲雌虫产卵量和卵的孵化率的影响。【方法】在室内条件下,对不同交配时长下广聚萤叶甲的雌虫产卵量和卵的孵化率进行观察:(1)选取羽化第3d的广聚萤叶甲雌雄虫随机配对,观察24 h,记录交配情况和时长;(2)在交配开始1、5、15、30、60 min时,强行分开雌雄成虫,然后将不同交配时长的雌虫进行单独饲养,以正常交配一次的雌虫作为对照,每个处理选取23组;(3)将15～30 cm健壮豚草小苗插入注满水的塑料小瓶内,将配对的一组雌雄成虫和豚草小苗放入养虫盒中饲养,每天更换带卵的小苗并记录叶片上的产卵量;(4)将上述带卵的小苗至于适宜条件下培养,记录5～7 d内卵块孵化的情况。【结果】广聚萤叶甲正常交配一次的对照组的产卵水平显著高于各处理组,单雌产卵为889粒,交配时间15 min以下各组雌虫的产卵量明显低于交配30 min以上的各组雌虫。同时交配时长5 min以下雌虫产的卵基本不能孵化,而交配时间达到30 min以上的各组卵块的孵化率明显提高。【结论】雄虫转移雌虫受精所需精子量需要耗费的时间为30 min左右,且雄虫有延长交配时间的趋性。该结果为研究广聚萤叶甲的生态特性以及优化种群繁殖提供科学依据。     

绿洲农田三叶草夜蛾的种群动态及交配特征

三叶草夜蛾Scotogramma trifolii Rottemberg是一种多食性的害虫,其在农田生态系统中的种群动态及交配情况尚不清楚。本试验在库尔勒地区连续3年(2013-2015年4-9月)利用智能虫情测报灯监测了三叶草夜蛾的种群动态,并在实验室解剖雌蛾体内精包,评估野外雌蛾的交配情况。研究表明不同年际间相同月份其种群数量变化趋势相同,即每年的4月中下旬、6月中下旬和7月下旬均会出现三叶草夜蛾的种群高峰期;而相同年际内不同月份三叶草夜蛾的种群数量存在变异。解剖数据表明了三叶草夜蛾交配频率平均达到2.7次/头以上,同一年份内和不同年际间均存在一定比例的未成功交配雌蛾,其成功交配比例在55.56%~97.37%,2013年和2015年的成功交配比率较低,低于60%,而2014年的成功交配率却高于80%。通过本研究初步明确了野外三叶草夜蛾交配特征和种群动态,为绿洲农田三叶草夜蛾的综合防治提供了科学依据。     

浙江茶尺蠖地理种群已分化成为不同种

【目的】明确茶尺蠖Ectropis obliqua Prout不同地理种群的种群分化和生殖隔离程度。【方法】对分别在浙江杭州和衢州两地田间采集的茶尺蠖杭州种群（H）和衢州种群（Q）两个种群,进行形态学鉴定、生物学特征观察以及正反交试验。【结果】形态学与生物学观察结果表明,除Q种群的体形较大和体翅颜色略深外,两个种群的外部形态、生殖器解剖结构和雌蛾产卵量等基本相同。遗传杂交试验结果表明,无论是正交还是反交,杂交后均能获得子一代（F1）;与种群内自交相比,杂交后雌成虫的产卵量下降,卵的孵化率显著降低;幼虫的历期明显缩短且化蛹时间分布不规则,蛹重变轻;蛹的羽化率降低,羽化的成虫雌雄性比严重失调。【结论】茶尺蠖杭州种群（H）和衢州种群（Q）两个种群存在生殖隔离,有明显的种群分化,应属于不同种。     

植物的交配系统及其进化机制与种群适应

高等植物的繁殖方式远比高等动物的要复杂多样〔１,２〕,历来受到众多学者的关注。交配系统和作用于交配系统的选择力量,在达尔文时代的进化理论中就有着重要的地位〔３,４〕,达尔文本人对交配系统的进化结果也有着浓厚的兴趣〔５〕。植物交配系统方面的信息,对遗传育种〔６～１０〕、濒危物种遗传多样性检测的取样策略〔１〕、种质遗传资源的保护和利用〔１１～１５〕有着重要的理论指导意义。然而,交配系统与相关概念之间有一定的交叉重合,易引起术语和概念的混乱,笔者将首先探讨交配系统及有关概念的范畴。当然最引人关注的是交…     

菱角萤叶甲不同地理种群及近缘种rDNA-ITS1基因序列初步分析

通过对我国菱角萤叶甲Galerucella birmanica Jacoby 6个地理种群和褐背小萤叶甲Galerucella grisescens Joannis扬州种群的核糖体DNA第1内转录间隔区（rDNA-ITS1）的测序,并调用GenBank中该属其它4种昆虫的同源序列,运用软件DNAStar的MegAlign程序对小萤叶甲属种间、同种不同地理种群之间的ITS1序列的遗传分歧及相似性进行了分析,运用Mega3.0软件建立系统发育关系.序列分析结果表明,rDNA-ITS1基因在小萤叶甲属昆虫中进化速度较快,种下具有一定的差异,种间差异明显.该基因适合小萤叶甲属种间和种下的分类鉴定研究.进化树显示,菱角萤叶甲泰安种群和扬州种群形成一个分支,益阳种群和新余种群形成一个分支,苏州种群和上海青浦种群形成一个分支,这一现象说明6个地理种群的菱角萤叶甲分化与寄主和地理距离之间具有较高的相关性.     

暗褐蝈螽不同地理种群间的遗传分化

利用线粒体COI基因片段研究了我国吉林、辽宁、内蒙古、河北和四川的暗褐蝈螽(Gampsocleis sedakovii)12个地理种群间的遗传分化。结果表明: 36条626 bp的mtDNA-COI基因片段中共检测到单倍型29种, 多态位点71个, 其中简约信号位点37个, 单一多态位点34个。分子变异等级分析(AMOVA)的计算结果显示, 群体内变异仅占总变异的37.23%, 明显小于群体间变异, Fst值为0.62770, 各群体间呈现明显的遗传分化。最大简约法(MP)系统发育分析结果显示, 暗褐蝈螽的12个地理种群以极高的自举支持度(100%)聚类, 形成两个独立的分枝。由于两个分枝的聚类结果与基于形态学特征划分的两个亚种(Gampsocleis sedakovii sedakovii和Gampsocleis sedakovii obscura)并不对应。综合采集地的生境, 初步推测暗褐蝈螽两个亚种间的形态学差异可能是由于它们所处生境不同所引起。在12个地理种群中, 只有内蒙古通辽(NTL)的个体在两个分枝中均有出现。单倍型分布格局研究发现, 单倍型H10是内蒙古通辽(NTL)、鄂温克(NEWK)和吉林吉林(JJL)3个地理种群的共享单倍型, 说明它们来自于共同的祖先。研究结果支持我国的东北地区是暗褐蝈螽遗传分化中心的观点, 但不支持基于形态学特征划分的两个亚种。     

绿缘扁角叶甲生活史、交配及繁殖的观察

【目的】探明绿缘扁角叶甲Platycorynus parryi Baly年生活史、交配及繁殖情况。【方法】越冬代成虫在室内自然条件下连续繁殖,及在不同温度下,详细观察记录了成虫的交配、繁殖力和寿命。【结果】绿缘扁角叶甲是络石Trachelospermum jasminoides的重要害虫,以老熟幼虫在3~5 cm深的土层中越冬,在江西南昌一年发生1代。越冬幼虫于次年4月中旬开始陆续化蛹,4月下旬成虫开始羽化。自然条件下各虫态发育历期:卵期(11.81±0.17)d,幼虫期300~330 d,蛹期(13.62±0.13)d,成虫寿命(47.99±0.65)d。成虫羽化3~4 d后开始交配,日平均交配(3.55±0.11)次,交配持续时间最短5 min,最长可达140 min,平均交配持续时间(28.11±0.89)min,日龄大的成虫交配持续时间显著短于日龄小的成虫;相邻两次交配之间的间隔时间最短3 min,最长426 min,平均交配间隔时间(74.75±3.19)min,日龄大的成虫交配间隔时间显著短于日龄小的成虫。交配后2~3 d开始产卵,平均每雌产卵量为169粒。在22、25和28℃条件下,温度对雌虫寿命具有显著影响,随着温度升高,雌虫寿命显著缩短,而雄虫寿命和每雌产卵量却差异不显著。【结论】绿缘扁角叶甲在江西南昌一年发生1代,以老熟幼虫在土中越冬,成虫可进行多次交配,成虫日龄对其交配行为有显著影响,温度对该虫的繁殖力无显著影响。     

中华稻蝗不同地理种群杂交子代的滞育率

为弄清中华稻蝗Oxya chinensis Thunberg卵滞育的遗传特征,调查中华稻蝗济宁、泗洪及株洲3个地理种群卵滞育的地理变异及亲本对杂交子代滞育的影响。结果表明:南方的株洲种群仅部分卵进入滞育,滞育率较低,而纬度较高的济宁、泗洪种群的卵滞育率达100%。说明不同地理种群的中华稻蝗卵滞育率存在着地理变异。将完全滞育的济宁、泗洪种群与滞育率较低的株洲种群的雌雄成虫进行正反杂交,济宁与株洲种群、泗洪与株洲种群的子代均有部分卵为非滞育卵,与株洲种群的滞育特征相似。但不管是以株洲种群为父本,还是为母本,杂交子代的滞育率均显著高于株洲种群,而与完全滞育的济宁、泗洪种群更为接近,说明中华稻蝗卵滞育的发生受雌雄基因的共同作用,但滞育程度与滞育率高的亲本的关联性更大。     

The evolution of host preference in allopatric vs. parapatric populations of Timema cristinae walking-sticks

Divergent habitat preferences can contribute to speciation, as has been observed for host-plant preferences in phytophagous insects. Geographic variation in host preference can provide insight into the causes of preference evolution. For example, selection against maladaptive host-switching occurs only when multiple hosts are available in the local environment and can result in greater divergence in regions with multiple vs. a single host. Conversely, costs of finding a suitable host can select for preference even in populations using a single host. Some populations of Timema cristinae occur in regions with only one host-plant species present (in allopatry, surrounded by unsuitable hosts) whereas others occur in regions with two host-plant species adjacent to one another (in parapatry). Here, we use host choice and reciprocal-rearing experiments to document genetic divergence in host preference among 33 populations of T. cristinae. Populations feeding on Ceanothus exhibited a stronger preference for Ceanothus than did populations feeding on Adenostoma. Both allopatric and parapatric pairs of populations using the different hosts exhibited divergent host preferences, but the degree of divergence tended to be greater between allopatric pairs. Thus, gene flow between parapatric populations apparently constrains divergence. Host preferences led to levels of premating isolation between populations using alternate hosts that were comparable in magnitude to previously documented premating isolation caused by natural and sexual selection against migrants between hosts. Our findings demonstrate how gene flow and different forms of selection interact to determine the magnitude of reproductive isolation observed in nature.     

Assortative mating between two distinct micro-allopatric populations of Littorina saxatilis (Olivi) on the northeast coast of England

Size assortative mating is a common invertebrate mating pattern and is usually accompanied by male and female sexual selection, and these three behaviours can contribute to reproductive isolation. Two distinct populations of the marine prosobranch Littorina saxatilis, H and M, occur within 15 m of each other on the same shore. Previous studies have demonstrated that these two forms have different reproductive strategies and that the rare hybrids between the two forms show evidence of reproductive dysfunction and hence are less fit than the assumed parental forms. In both populations, female shell height was shown to be a predictor of the number of embryos contained within the brood pouch. The mean shell height of the M population was significantly larger than that of the H population, and the M population matures at a larger shell size than the H population. The two populations show complete assortative mating to type in the field, and occupy different microhabitats on the same shore. Therefore, laboratory-based experiments were performed to determine if assortative mating was maintained in sympatry and also to determine the effect of population density on mate choice. The males of both populations showed sexual selection for female size, choosing to mate with females approximately 10% larger than themselves from an assortment of female sizes. The M population showed complete assortative mating to type, irrespective of the density of H and M females, whereas at low densities the H males did occasionally mate with M females. The role of assortative mating and reinforcement (due to natural selection acting against the less fit hybrids), in maintaining the partial reproductive barrier between the two populations is discussed.     

Desiccation resistance and mating behaviour in laboratory populations of Drosophila simulans originating from the opposing slopes of Lower Nahal Oren (Israel)

Lower Nahal Oren in Northern Israel, often referred to as 'Evolution Canyon', has been proposed as a microscale model site for ecological evolution. However, conflicting stress resistance and mating assay results contribute to controversy over the Nahal Oren model. In this study, we further tested the Nahal Oren model, while extending its focus from Drosophila melanogaster to its sister species, Drosophila simulans. Using fly populations derived from the opposing canyon slopes and acclimated to laboratory conditions for 11-22 generations, we did not find a significant slope effect on desiccation resistance (P = 0.96) or body metabolic fuel content (P > 0.43), which would indicate a genetic basis for adaptation to local resource limitation. Multiple-choice mating assays (47-48% homotypic couples in two replicate populations) did not indicate divergence from a random mating pattern between north- and south-facing slope flies. In conclusion, our findings do not support divergence of D. simulans populations across Lower Nahal Oren.     

Behavioural,ecological and genetic evidence confirm the occurrence of host‐associated differentiation in goldenrod gall‐midges

Host‐associated differentiation (HAD) is considered a step towards ecological speciation and an important mechanism promoting diversification in phytophagous insects. Although the number of documented cases of HAD is increasing, these still represent only a small fraction of species and feeding guilds among phytophagous insects, and most reports are based on a single type of evidence. Here we employ a comprehensive approach to present behavioural, morphological, ecological and genetic evidence for the occurrence of HAD in the gall midge Dasineura folliculi (Diptera: Cecidomyiidae) on two sympatric species of goldenrods (Solidago rugosa and S. gigantea). Controlled experiments revealed assortative mating and strong oviposition fidelity for the natal‐host species. Analysis of mitochondrial DNA showed an amount of genetic divergence between the two host‐associated populations compatible with cryptic species rather than host races. Lower levels of within‐host genetic divergence, gall development and natural‐enemy attack in the S. gigantea population suggest this is the derived host.     

Frequency- and density-dependent sexual selection in natural populations of Galician Littorina saxatilis Olivi

Galician exposed shore populations of the direct developing periwinkle Littorina saxatilis are strikingly polymorphic, with an ornamented and banded upper shore form and a smooth and unbanded lower shore form. Intermediates between the two pure forms occur in a narrow mid shore zone together with the parental forms. We have previously shown that the two pure forms share the same gene pool but that mating between them is non-random. This is due to a non-random microdistribution in the zone of overlap, and also to assortative mating. In this study we present data which show that intermediate (hybrid) females mate less often than pure females in micropatches dominated by either of the pure forms, but not in micropatches in which the two pure forms are equally common. Thus, sexual fitness in intermediate females depends on the frequency of both pure morphs. Furthermore, sexual selection against intermediate females also varies with the densities of snails within each micro patch. The biological mechanisms which may explain this particular reduction of female hybrid fitness are discussed. Assortative mating between the pure morphs is sometimes almost complete, while both morphs do not mate the intermediates assortatively. In the light of this, sexual selection against intermediate females may contribute considerably to restrict gene flow between the pure forms.