十字花科作物转基因研究进展

从转化受体、转化方法、转化频率、外源基因等方面对十字花科转基因研究进展进行了综述。并提出了当今十字花科转基因研究存在的问题。     

葫芦科作物转基因研究进展

葫芦科作物是重要的世界性经济作物,品种丰富,种类繁多,在蔬菜作物中占有极重要位置。其果实中含有丰富的碳水化合物、矿物质和抗坏血酸。葫芦科作物中的西瓜、甜瓜果实中还富含胨化酶,能帮助分解食物中的蛋白质,深受人们喜爱。西瓜、甜     

转基因抗虫植物对昆虫天敌的影响

东北农业大学农学院吴研、王振营（中国农科院植保研究所）、赵长山等植保研究工作人员在转基因作物给人类带来经济效益的今天,对此课题进行了试验研究,发现转基因抗虫作物对靶标害虫有很好的控制作用。对捕食性天敌和寄生天敌及其种群数量的影响为其安全评价的重要内容。[第一段]     

转基因作物对环境的潜在影响

有关世界某些地区商业引种转基因 (GM )作物的争论 ,已经提出GM作物有可能对环境产生潜在影响的问题。例如 :GM作物会影响非目标昆虫吗 ?会通过异型杂交或远交产生无法防治的杂草吗 ?会对野生生物产生有害的影响吗 ?另一方面 ,也提出这样的问题 :GM作物可在多大程度上 ,通过减少农业中某些化学物质的投入数量 ,或是提供目前从不可更新的资源获得的原料 ,从而造福于环境 ?虽然承认 ,农业会不可避免地影响环境 ,但在作物生产、野生生物和消费者利益之间 ,究竟会发生何等合理的交换呢 ?评价GM作物的环境影响 ,乃是在田间条件下 ,试验性或商…     

转基因作物对土壤微生物的影响

全球范围内转基因农作物的大量种植不仅带来巨大的经济利益,同时也引发了人们关于转基因作物对包含土壤微生物在内的土壤生态系统的潜在风险的忧虑.转基因作物对土壤微生物的影响包括外源基因表达蛋白对非靶标土壤微生物的直接影响,也包括因外源基因导入而植物根系分泌物组分变化引起的间接影响.目前,对转基因作物的大多数研究表明,转基因作物能引起土壤微生物种群数量和结构的变化.但是,转基因作物对土壤微生物的影响力度有大有小,持续时间有长有短,评价不一.本文综述了不同种类转基因作物对土壤微生物的影响,对转基因作物种类、试验技术和原则等影响评价结果准确性的因素进行了讨论,提出了进一步研究需要注意的问题.     

转基因作物对生物多样性的影响

转基因作物对生物多样性的影响是重要的环境问题之一,近年来,已有这类实验的报道。夏敬源等的研究说明大田种植转基因Bt虫棉花对棉铃虫优势寄生性天敌齿唇姬蜂（Campoletis chlorideae）和侧沟绿茧蜂（Microplitis sp.）的寄生率、羽化率和蜂茧质量造成严惩的危害。国际上一些昆虫学家也做了很好的工作,尤其1999年5月Losey在Nature上发表转基因Bt抗虫玉米在实验室水平上引起大斑蝶死亡报道后,世界范围内引起极大的反响,在有关经遗传修饰生物体（GMOs）的潜在生态风险和人体健康影响的问题上美国始络抱抵制的强硬态度,这次也开始有所所松动。两个有影响的美国玉米加工公司富布不再接受欧盟拒绝进口的转基因玉米品种。欧盟宣布在进一步研究得到结论前冻结转基因作物产品进口的审批。欧盟所属有关国家有的禁止进口,有的反对欧盟审批。科技界及公众众说纷纭。建议我国政府要加强GMOs潜在生态风险及对公众健康的研究及商业化生产后的监测。     

作物抗除草剂转基因研究进展

综述了抗除草剂基因研究的意义、研究机理及国内外研究现状,分析了各种转基因方法的优缺点,展望了除草剂抗性育种的发展方向。     

转基因作物对土壤无脊椎动物的影响

随着生物技术的快速发展,越来越多的转基因作物被引入农业生态系统,继而引发转基因作物对土壤生态系统带来影响的担忧。土壤无脊椎动物作为食物链中的分解者,是土壤生态系统的重要组成成分,其数量和多样性直接与土壤的健康和质量相关。土壤无脊椎动物作为土壤质量的重要指标,已成为转基因作物环境安全性评价的重要内容之一。本文在概述近些年国内外关于转基因作物外源表达产物在土壤中的残留动态的检测结果的基础上,综述关于棉花、玉米、水稻、油菜等转基因作物对线虫、跳虫、螨类和蚯蚓等代表性土壤无脊椎动物影响的最新研究进展。总体来说,转基因作物对土壤无脊椎动物的群落多样性没有明显不利影响,但个别对环境变化特别敏感的类群,在数量或组成上有所不同。由于调查方法和作物种类、土壤类型等因素的不统一,不同的研究结果无法进行比较,因此,建议尽快建立转基因作物对土壤无脊椎动物影响的评价方法和标准,以便为转基因作物的环境影响评价提供客观可靠的评价结果,推动我国的转基因作物研发和商业化推广,同时最大限度地降低转基因作物对环境的不利影响。     

转基因作物对土壤生态系统的影响

综述了转基因作物对土壤生态系统影响的研究进展,包括转基因作物中的外源基因在土壤中的活性,转基因作物对土壤微生物区系有土壤酶活性的影响以及转基因作物对土壤动物区系的影响,转基因作物对土壤生态系统的影响与导入的外源基因特性和土壤类型相关,转基因产物进入土壤后引起的土壤生物变化的程度依赖于许多因素,最重要的决定因素是生态系统的复杂性和稳定性,评价不同转基因作物对土壤生态系统的影响具有重要的生态学意义,急需发展和完善以分子生物学为主的风险评价方法。     

转基因棉花对棉铃虫天敌寄生率的影响

采用分期接虫、分期回收法研究常规棉与转基因棉花品种 (系 )上棉铃虫寄生性天敌在不同棉花品种上的寄生作用。结果表明 ,无论是第 2代棉铃虫发生期间还是第 3 ,4代棉铃虫发生期间 ,无论是棉铃虫卵期还是幼虫期 ,转基因棉花品种 (系 )的棉铃虫卵、幼虫寄生率均显著低于常规棉花品种上的寄生率。棉铃虫卵期寄生蜂主要是拟澳洲赤眼蜂 ,幼虫寄生蜂为棉铃虫齿唇姬蜂等。由此看出转基因棉对棉铃虫寄生性天敌存在非亲和性。     

Potential side effects of insect-resistant transgenic plants on arthropod natural enemies.

Engineering genes encoding insecticidal proteins into crop plants offers numerous benefits to agriculture. However, like many conventional insecticides, this new technology has the potential to disrupt natural biological control through both direct and indirect side effects of the plants on the fitness or behaviour of arthropod predators and parasitoids. Interactions between transgenic plants and these beneficial insects are being assessed to avoid incompatibility.     

天敌与转Bt基因抗虫植物的协同控害作用

本文概述了转Bt基因抗虫植物对天敌的影响,特别是天敌与转Bt基因抗虫植物的协同控害作用及其对寄生昆虫抗生发展的影响研究进展。已有的研究表明转Bt基因抗虫植物对天敌并无明显不利的影响,但转Bt基因抗虫植物与天敌的协同控害作用表现出拮抗性、加和性及增效性等多种形式,这种协同作用可能还将影响到害虫对转Bt基因抗虫植物的速率。     

农药对捕食性天敌的影响研究进展

捕食性天敌在害虫的自然控制方面起着重要作用。当害虫大发生时,需使用化学农药来进行有效控害,但化学农药会对捕食性天敌的生存造成影响。因此,了解农药对捕食性天敌的影响有利于协调化学防治和生物防治的关系。大部分农药对捕食性天敌的生长发育和繁殖表现为抑制作用,但有的为促进作用。在农药的干扰下,多数捕食性天敌的信息识别能力会降低,少部分会通过提高雄虫接收性信息素的能力或增加雌虫性信息素的释放来诱导求偶行为、增加交配频率。有的杀虫剂会影响捕食性天敌的捕食行为及捕食功能,部分杀虫剂会直接使其捕食功能模型由Holling-Ⅱ型转变为Holling-Ⅰ型。在农药胁迫下,捕食性天敌会产生抗药性,其解毒酶活性升高、保护酶活性改变及靶标部位敏感性下降可能是抗药性产生的机理。农药对捕食性天敌的影响研究在协调害虫化学防治和生物防治中有着重要的理论和现实意义,可以有效地推进捕食性天敌在害虫综合治理中的应用。     

The impact of transgenic plants on natural enemies: a critical review of laboratory studies

We reviewed laboratory tests which studied the impact of genetically modified plants on arthropod natural enemies. A total of 18 species of predators and 14 species of parasitoids have been tested, most in only a few experiments. Certain groups (braconid wasps) or species (the green lacewing, Chrysoperla carnea) have attracted much effort, while representatives of others, including whole orders (e.g., Diptera), have never had a species tested. We conclude that laboratory tests are not the ‘worst case’ scenarios intended by the experimental designs, and are not often ecologically realistic: they typically provided ad libitum feeding, no prey choice, single prey type, no combination of stress factors and usually uniform temperatures. None of these are representative of field conditions, yet most could be easily mimicked in more complex laboratory tests. In most cases (94.6%), the studies were unable to indicate the level of power required to detect any impact. Small sample size and large variability are factors that mask all but very large differences in potential effects. For predators, 126 parameters were quantified, most commonly including survival/mortality (37 cases), development time (22), and body mass/size (20). For parasitoids, 128 parameters were quantified, the majority involving lectins or proteinase inhibitors. Most frequent measurements were: fecundity (23 experiments), adult longevity, extent of parasitism (17 each), body size, mortality, and larval development time. An aggregative scoring (summarising all quantified parameters) indicated that the laboratory tests quantified a remarkable number of cases (30% for predators, 39.8% for parasitoids), where the impacts of the genetically modified plant were significantly negative. These involve various parameters, organisms, test methods, and significance levels, but collectively they indicate that the use of genetically modified crops may result in negative effects on the natural enemies of crop pests.     

两种杀虫剂对稻田捕食性天敌集团捕食功能的影响

将稻田各类捕食性天敌作为一集团,运用功能法评价了甲胺磷和杀虫双对该集团捕食功能的影响,由于各类捕食性天敌对杀虫剂敏感性的不同,甲胺磷和杀虫双造成的各类天敌的死亡率和残存天敌个体的捕食功能减退率均不同。实验表明,隐翅虫类和狼蛛类对甲胺磷较为敏感,而对杀虫双,肖蛸类最为敏感。杀虫双对隐翅虫类的致死作用及捕食功能影响较小。就集团的捕食功能而言,甲胺磷影响明显大于杀虫双,但在总的功能减退率组分中,甲胺磷致     

Non-additive effects of multiple natural enemies on aphid populations

The question of whether multiple natural enemies often interact to produce lower host mortality than single enemies acting alone has not yet been resolved. We compared the effects of four different combinations of natural enemies-parasitoids, predators, parasitoids plus predators, and no enemies-on caged aphid populations on marsh elder, Iva frutescens, in west-central Florida. Using starting densities of natural enemies commonly found in the field, we showed that parasitoid wasps reduced aphid population densities more than predatory ladybird beetles. The addition of predators to cages containing parasites reduced the ability of parasitoids to decrease aphid population densities. Because the experiments ran only over the course of one generation, such a reduction in the effectiveness of parasites is likely caused by interference of predators with parasitoid behavior. Parasitism in the cages containing both parasitoids and predators was reduced when compared to percent parasitism in parasitoid-only cages, but this could also be due to predation. Our experiments showed that ladybird beetles prey on parasitized aphids. Thus over the long-term, the effectiveness of parasites is impaired by the interference of predators on ovipositing parasitoids and by the predation of parasitized aphids. The effects of natural enemies in this system are clearly non-additive.     

Contrasting effects of natural habitat loss on generalist and specialist aphid natural enemies

The greater susceptibility of higher trophic levels to habitat loss has been demonstrated to disrupt important trophic interactions such as consumer control of prey populations. This pattern is predicted to break down for generalist species that can use matrix habitats, yet empirical studies comparing generalist and specialist enemy pressure in response to natural habitat loss are lacking. Here we examined the effects of landscape simplification resulting from habitat conversion to agriculture on nettles, Urtica dioica , their specialized aphid herbivore, Microlophium carnosum , and associated natural enemies that varied broadly in their degree of specialization. Both nettles and their specialized aphid herbivore were significantly more abundant in complex than simple landscapes. Different enemy groups showed contrasting responses. Aphid specialists (parasitic wasps and cecidomyiid midges) reached higher densities in complex than simple landscapes, and this effect was primarily related to shifts in local resource abundance (i.e. nettle aphid densities). In contrast, densities of generalists (coccinellid beetles and spiders) were significantly higher in simple landscapes, presumably due to spillover of generalists from surrounding cropland habitats. Natural enemy-prey ratios did not differ significantly across landscape types for specialist groups but were significantly higher in simple than complex landscapes for generalist groups, suggesting that enemy pressure on nettle aphids likely increases with landscape simplification. This was supported by our finding that aphid population growth rates were lower in simple than complex landscapes, and declined significantly with increasing coccinellid densities. Thus, in marked contrast to previous work, our results suggest that natural habitat loss may augment rather than disrupt consumer–prey interactions, and this will depend greatly on the degree of specialization of functionally dominant natural enemies.     

The effects of leaf quality on herbivore performance and attack from natural enemies

A diverse array of sublethal plant secondary compounds are commonly found in the foliage of temperate deciduous trees. These traits are thought to defend a plant in two principal ways, either directly by reducing insect oviposition, feeding, or biomass gain, or indirectly, through digestive inhibition. Such inhibition is hypothesized to slow the rate of herbivore development, thereby increasing their susceptibility to natural enemies (the slow-growth-high-mortality hypothesis). To clarify the defensive role of these compounds, field experiments were conducted to examine the relationships among oak leaf quality, herbivore family, and three herbivore performance measures: survivorship, development time, and pupal mass, for a bivoltine leaf-tying caterpillar, Psilocorsis quercicella (Lepidoptera: Oecophoridae). Two experiments, one for each generation of the insect, were conducted to examine the effects of intraspecific variation in leaf chemistry of its host, white oak trees (Quercus alba). In each experiment, full-sib neonate larvae were placed in experimental leaf ties on high- versus low-quality trees and allowed to feed for 2 weeks under field conditions. To determine the effect of the third trophic level, a portion of each family in each leaf-quality treatment was bagged to prevent attack from natural enemies. This treatment also allowed us to test a prediction of the slow-growth-high-mortality hypothesis, i.e., that development time, as measured for full sibs in the bagged treatment, should be positively correlated with mortality of their full sibs exposed to natural enemies. Low leaf quality significantly reduced survivorship of the caterpillars in the first generation but not the second. The third trophic level decreased survivorship in both generations. Larval development time was not affected by leaf quality in either generation, but varied significantly among insect families in both generations. In turn, larvae from slower-developing families did not suffer increased predation and parasitism, as predicted by the slow-growth-high mortality hypothesis. In contrast to development time, pupal mass showed a greater response to intraspecific variation in leaf quality, although the effect was only significant in generation 1. Concentrations of both total phenolics and hydrolyzable tannins in Q. alba foliage appear to be important negative predictors of pupal mass in P. quercicella. In marked contrast to development time, no main family effect was found for pupal mass in either experiment; however, significant family2environment interactions were found for the effects of the bagging treatment (generation 1) and the leaf-quality treatment (generation 2). Overall, the first trophic level had a greater influence on pupal mass (a fecundity correlate), while larval development time was determined more by the insect's family (genotype+maternal environment). The third trophic level was a consistently strong source of mortality in both experiments, but as a whole did not respond to familial differences in development time. Thus, from the perspective of P. quercicella, plant quality appears to serve as a defense more through its direct effect on herbivore survivorship and fecundity than through an indirect effect on predation via changes in development time.     

The effects of plant quality on caterpillar growth and defense against natural enemies

A survey of 85 species of Lepidoptera feeding on 40 hosts on Barro Colorado Island, Panama showed that growth and defensive traits of caterpillars were correlated with the nutritional and defensive traits of their hosts. Growth rates were faster on young than mature leaves, reflecting the higher nitrogen and water content of the former. Growth was also positively correlated with leaf expansion rate, partially because of higher nitrogen and water contents of fast-expanding young leaves. Specialists grew faster than generalists, but both responded positively to nutritional quality. There was no effect of lepidopteran family on growth. In analyses where the effects of nitrogen and water were removed, the residuals for growth rate were greater for young than for mature leaves and were positively correlated with expansion rates of young leaves. This suggests that traits other than nutrition were also important. As young, expanding leaves cannot use toughness as a defense, one possible explanation for the differences in growth is differences in chemical defenses. Growth rate residuals for both specialists and generalists were higher for the more poorly defended fast-expanders, but the effect was greatest for generalists, perhaps because generalists were more sensitive to secondary metabolites. We predicted that slow growth for caterpillars would increase their risk to natural enemies and would select for higher defenses. Generalists had more defensive traits than specialists and were less preferred in feeding trials with ants. Similarly, species feeding on mature leaves were the most defended and those feeding on fast-expanding young leaves were the least defended and most preferred by ants. Thus the effects of plant secondary metabolites and nutrients dictate herbivore growth rates, which in turn influence their susceptibility to the third trophic level and the importance of defenses.