采用马氏诱集器法对不同小生境昆虫相的初步研究

本文采用马氏诱集器法对6种不同小生境的昆虫相进行初步研究。对采集到的昆虫进行整理和数据分析后表明,采用马氏诱集器法对不同昆虫的诱集效果不同,其中对双翅目、鳞翅目和膜翅目的诱集效果较好。根据诱集结果,不同生境的昆虫种类和数量都存在明显差异。     

三种诱捕器对天牛科昆虫的诱集效率

【目的】不同诱捕器类型可以有效诱集不同昆虫物种,为了更准确的判断某地区的物种丰富度,更高效的进行不同物种的诱集,开展不同诱捕器类型对昆虫诱集效率的对比研究是至关重要的。【方法】研究了档板、漏斗和马氏3种不同类型诱捕器在吉林省松花湖库区蒙古栎林中对天牛科昆虫的诱集数量和种类。【结果】在相同地点和相同时间段内,漏斗诱捕器共诱集189头天牛科昆虫、分属于4亚科、11属、12种;挡板诱捕器共诱集134头天牛科昆虫,分属于5亚科、15属、17种;马氏诱捕器共诱集99头天牛科昆虫,分属于4亚科、16属18种。从诱集到的物种丰富度看,诱集效率顺序为:马氏诱捕器>挡板诱捕器>漏斗诱捕器;从诱集到的个体数量看,诱集效率顺序为:漏斗诱捕器>挡板诱捕器>马氏诱捕器;从诱集到的优势种数量看,诱集效率顺序为:漏斗诱捕器>挡板诱捕器>马氏诱捕器。【结论】从成本和效率的综合因素考虑,在一般性天牛科昆虫调查和种群监测时,可以选择以联合使用挡板和漏斗诱捕器为主,马氏诱捕器辅之的调查设计,可达到高效且经济的调查天牛科昆虫的目的。     

剪叶及昆虫取食对兴安落叶松蛋白酶抑制剂的影响

植物蛋白酶抑制剂是植物重要的防御物质之一。为了研究不同程度剪叶及昆虫取食诱导与兴安落叶松Larix gmelinii针叶内蛋白酶抑制剂活性变化的关系,分别以剪叶及落叶松毛虫Dendrolimus superans取食处理兴安落叶松幼苗,用紫外分光光度法测定不同处理后针叶内胰蛋白酶抑制剂(TI)和胰凝乳蛋白酶抑制剂(CI)活性变化。结果表明：落叶松毛虫取食及剪叶可诱导兴安落叶松产生系统性防御反应,处理后的1～20天,苗木针叶内TI和CI两种抑制剂活性产生显著变化,诱导产生的TI和CI的活性与损伤程度无显著相关性。相同损伤程度下,虫害诱导的TI活性高于剪叶损伤诱导的活性,但二者差异不显著;3种取食程度诱导的CI活性,只在第5天同时显著高于剪叶损伤诱导的抑制剂的活性。由此可见,可以通过适当的损伤处理取得与昆虫取食相似的植物抗性反应,这为林木病虫防治提供了新的思路。     

兴安落叶松原始林年龄结构动态的研究

对受不同程度干扰的兴安落叶松原始林年龄结构的研究表明,一代林年龄结构动态的特点是初期种群密度增大,年龄变幅加大,后期因自然稀疏而年龄变幅减小。多代林是不同世代的一代林的斑块镶嵌,上层老年世代年龄变差小,中层的中年或成年世代变差大,下层幼年世代变差亦较小。白桦与落叶松在良好立地上混生时,初期因白桦定居早,其平均年龄比落叶松大5—15年,50—70年后,落叶松的平均年龄因部分白桦死去而变得较大。     

剪叶损伤与昆虫取食对兴安落叶松（Larix gmefinii）针叶中缩合单宁诱导作用的差异

单宁是植物内与抗虫性相关的重要次生代谢物质。为了研究昆虫取食及剪叶诱导对兴安落叶松（Larix gmelinii）针叶内缩合单宁含量的影响,用剪叶法和落叶松毛虫（Dendrolimus superans）幼虫取食处理5年生兴安落叶松苗,以香草醛．盐酸法测定其剩余健康针叶内缩合单宁含量的变化。结果表明：（1）处理后1～10d,剪叶4枝75％,8枝50％、75％,12枝25％、50％、75％及虫伤4枝75％的兴安落叶松健康针叶内的缩合单宁含量均明显高于对照（P〈0．01）,15d时,剪叶8枝75％,12枝50％的兴安落叶松针叶内的缩合单宁含量仍高于对照（P〈0．05）,说明剪叶与虫伤处理均能诱导缩合单宁含量增加。（2）剪叶4枝75％,8枝50％,12枝25％、75％的处理之间,诱导的缩合单宁含量差异不显著（P〉0．05）。剪叶8枝75％,12枝50％诱导缩合单宁含量增加幅度比其它剪叶处理大,且诱导持续时间长。说明剪叶程度虽能影响缩合单宁含量,但二者并不呈线性关系。（3）剪叶4枝75％在5d时诱导缩合单宁含量最高,虫伤4枝75％在10d时诱导缩合单宁含量最高,说明剪叶诱导的缩合单宁含量高峰早于虫伤处理。但处理后1-10d,剪叶及虫伤4枝75％的落叶松针叶内缩合单宁含量均明显高于对照（P〈0．01或P〈0．05）,之后与对照差异不显著（P〉0．05）,说明在受到诱导处理后,兴安落叶松产生应激反应,使其针叶内缩合单宁含量在一定时间内先增加,后逐渐恢复到正常水平。由上可见,可以采取适当的损伤处理取得与昆虫取食相似的兴安落叶松抗性反应。     

剪叶损伤与昆虫取食对兴安落叶松(Larix gmelinii)针叶中缩合单宁诱导作用的差异

单宁是植物内与抗虫性相关的重要次生代谢物质.为了研究昆虫取食及剪叶诱导对兴安落叶松(Larix gmelinii)针叶内缩合单宁含量的影响,用剪叶法和落叶松毛虫(Dendrolimus superans)幼虫取食处理5年生兴安落叶松苗,以香草醛-盐酸法测定其剩余健康针叶内缩合单宁含量的变化.结果表明:(1)处理后1～10d,剪叶4枝75%,8枝50%、75%,12枝25%、50%、75%及虫伤4枝75%的兴安落叶松健康针叶内的缩合单宁含量均明显高于对照(P<0.01),15d时,剪叶8枝75%,12枝50%的兴安落叶松针叶内的缩合单宁含量仍高于对照(P<0.05),说明剪叶与虫伤处理均能诱导缩合单宁含量增加.(2)剪叶4枝75%,8枝50%,12枝25%、75%的处理之间,诱导的缩合单宁含量差异不显著(P>0.05).剪叶8枝75%,12枝50%诱导缩合单宁含量增加幅度比其它剪叶处理大,且诱导持续时间长.说明剪叶程度虽能影响缩合单宁含量,但二者并不呈线性关系.(3)剪叶4枝75%在5d时诱导缩合单宁含量最高,虫伤4枝75%在10d时诱导缩合单宁含量最高,说明剪叶诱导的缩合单宁含量高峰早于虫伤处理.但处理后1～10d,剪叶及虫伤4枝75%的落叶松针叶内缩合单宁含量均明显高于对照(P<0.01或P<0.05),之后与对照差异不显著(P>0.05),说明在受到诱导处理后,兴安落叶松产生应激反应,使其针叶内缩合单宁含量在一定时间内先增加,后逐渐恢复到正常水平.由上可见,可以采取适当的损伤处理取得与昆虫取食相似的兴安落叶松抗性反应.     

不同年龄杜香-兴安落叶松林粗木质残体贮量及特征

以大兴安岭杜香-兴安落叶松林为对象,采用2类标准分析不同年龄林分粗木质残体(CWD)的物种组成、径级结构及腐烂等级,揭示CWD特征及贮量的变化。结果表明:Harmon标准计算的密度、体积和生物量为350～659株·hm-2、2.64～38.27m3·hm-2和1.13～8.52t·hm-2,分别比LTER标准高出52.07%～92.38%、17.44%～63.13%和16.88%～22.11%。随着林分年龄的增加,Harmon标准计算的CWD密度呈\"U\"型分布,体积和生物量均呈近似正态分布;LTER标准计算的CWD密度从中龄林开始逐渐上升,体积和生物量则逐渐降低。随着林分年龄的增加,2类标准计算的腐烂等级高的CWD密度、体积和生物量比例均逐渐增加,其中幼中龄林以Ⅰ-Ⅱ级腐烂为主,近成熟林以Ⅱ-Ⅲ级为主。群落由兴安落叶松和白桦构成,兴安落叶松CWD在数量、体积和生物量上均占76%以上。     

植物源挥发物对玉米田天敌昆虫的诱集效果比较

【目的】比较7种植物源挥发物反式-β-法尼烯、橙花叔醇、6-甲基-5-庚烯-2-酮、顺-3-己烯乙酸酯、丁香酚、芳樟醇、顺式茉莉酮在玉米田中对天敌昆虫的诱集效果,为利用植物源挥发物对玉米田害虫进行生物防治提供参考。【方法】将7种植物源挥发物制作挥发物引诱球,利用水盆诱捕器、粘虫板和五点取样法调查百株虫量,比较7种植物源挥发物对捕食性和寄生性天敌昆虫的诱集效果。【结果】在7种植物源挥发物的筛选中,橙花叔醇对黄缘蜾蠃Anterhynchium flavomarginatum较其它6种化合物和对照的诱集效果有明显差异,顺式茉莉酮对黑带食蚜蝇Episyrphus balteatus较其它6种化合物和对照的诱集效果有明显差异,反式-β-法尼烯和顺式茉莉酮对龟纹瓢虫Propylaea japonica较其它5种化合物和对照的诱集效果有明显差异;在橙花叔醇和顺式茉莉酮的小区试验中,2种挥发物对龟纹瓢虫和异色瓢虫Harmonia axyridis的诱集效果明显优于对照,橙花叔醇对黑带食蚜蝇和虎斑食虫虻Astochia virgatipes的诱集效果明显优于对照。【结论】在7种植物源挥发物中,对玉米田天敌昆虫的诱集效果,橙花叔醇较好,顺式茉莉酮和反式-β-法尼烯次之。     

落叶松（Larix gemelinii）苗挥发物两种收集方法的对比分析

采用预浓缩和固相微萃取(SPME)2种方法对2年生兴安落叶松苗挥发物成分进行采集并做GC-MS分析.结果表明,落叶松苗挥发物主要成分为萜烯类化合物,其中α-蒎烯、4(10)-侧柏烯、莰烯、β-蒎烯、D-柠檬烯和β-水芹烯所占比例较高;整株、针叶和树皮挥发物的组成和含量存在差异,针叶中饱和烷烃含量较高,树皮中倍半萜烯、醇、酮和酯类挥发物含量较高,并且这2种组织经SPME采集检测的挥发物中石竹烯和α-蛇麻烯含量增加幅度较大,它们可能在昆虫近距离寄主定位中起作用.对2种气体收集方法的分析比较,认为预浓缩结果接近落叶松挥发物组分和含量的自然特征,SPME受萃取头纤维特性的影响,对倍半萜稀类化合物吸附作用强,对烷烃吸附差,并且不同化合物的同时存在可能影响其吸附效率,导致检测量准确度下降,因此预浓缩法更适合植物挥发物定性和定量分析.     

兴安落叶松游离氨基酸的动态变化与损伤因子的关系

为研究不同损伤因子及其不同损伤程度对落叶松游离氨基酸组分及其含量的影响,用剪叶和落叶松毛虫(Dendrolimussuperans)取食损伤兴安落叶松(Larixgmelinii)幼苗,使用HPLC柱前AccQ.Tag衍生法测定针叶内游离氨基酸的组成及含量的变化。结果表明,松针中含有17种游离氨基酸,以苯丙氨酸含量最高,损伤15d后,剪叶4枝比对照增加36.6%,虫害4枝增加的百分率达到98.3%。剪叶4枝15d后及虫害4枝5d后,损伤25%与50%之间氨基酸总含量差异显著(P0.05),且昆虫取食4枝25%、50%、75%后松针内游离氨基酸总含量的变化趋势与剪叶处理后总氨基酸含量的变化一致,均在处理10d后呈现较高的含量,虽虫害后的氨基酸总含量高于剪叶损伤后的总含量,但二者之间差异不显著。剪叶4枝、8枝、12枝3个损伤程度后针叶内的游离氨基酸含量无显著差异,说明剪叶4枝即能超过落叶松的耐受阈值,达到防御诱导效应。两种处理下多种游离氨基酸的含量均有下降,其中8种氨基酸含量存在显著差异(P0.05),即丝氨酸、谷氨酸、甘氨酸、组氨酸、脯氨酸、半胱氨酸、赖氨酸和苯丙氨酸。表明人工模拟剪叶的损伤方式与虫害都可诱导松树氨基酸组分及含量的变化,而间接影响害虫的生长发育。     

利用竞争指数评价水曲柳落叶松种内种间空间竞争关系

林木之间的竞争包括地上和地下两部分。竞争影响空间的确定对预测生长有重要的意义。本研究将竞争影响空间划分为两部分：距对象本最近的一圈,称为内圈,包括地上和地下竞争影响;除最近一圈以外称为外圈,主要为地下竞争影响。在此基础上将竞争指数分解为不同的竞争指数分量。并以水曲柳和落叶松纯林和混交林为例,定量地分析了竞争影响空间内地上竞争和地下竞争,种内和种间竞争影响大小。结果表明,纯林中两树体最近一圈内地上和     

兴安落叶松林生产力模拟及其生态效益评估

以兴安落叶松林为研究对象,基于森林资源清查资料和气候资料,建立了反映森林生物学特性(蓄积量和年龄)和气候因素(年均温和年均降水)综合作用的兴安落叶松林现实生产力模型;同时,评估了兴安落叶松林的生态系统公益,指出我国兴安落叶松林的生态系统公益总价值约为4499.8×106美元@a-1,其中生态效益(包括气候控制、土壤形成、废物处理、生物控制)的价值达2816.1×106美元@a-1,约占生态系统公益总价值的62.6%,是兴安落叶松林所创造的直接经济价值的2.56倍.社会经济价值的5.0倍.这表明全球气候变化将对兴安落松林的影响巨大,迫切需要研究全球变化下的兴安落叶松林对策.     

Induced defenses of Veronica spicata: Variability in herbivore-induced volatile organic compounds

Plants release volatile organic compounds (VOCs) that have many eco-physiological functions. Induction of plant VOCs is known to occur upon herbivory. Herbivore-induced VOCs are involved in the attraction of predators and parasitoids, a phenomenon known as an indirect defense of plants. We measured the VOC profiles of the wild species Veronica spicata with and without larval feeding and oviposition by the specialist butterfly Melitaea cinxia. V. spicata showed great plasticity when deploying indirect defences. The induction of several ubiquitous terpenoids and green leaf volatiles (GLVs) was associated with larval feeding, whereas the increase of two ketones, 6-methyl-5-hepten-2-one and t-geranylacetone and the suppression of GLVs were associated with oviposition by the butterfly.     

Ecological functions of volatile organic compounds in aquatic systems

In terrestrial ecosystems, volatile organic compounds (VOCs) are widely acknowledged as an important group of infochemicals. They play a major role in pollinator attraction by terrestrial plants and as insect pheromones. Furthermore, they are the mediating agent of so-called 'tritrophic interactions'. When plants are attacked by herbivorous insects, volatile signal substances are emitted, which act as attractants for parasitoids that kill the herbivores, thereby protecting the plant from herbivory. Despite the generally acknowledged importance of VOCs in terrestrial chemical ecology, their functions in aquatic food webs are largely unknown. VOCs produced by algae and cyanobacteria are a major concern in water processing, since aquatic primary producers are the reason for regularly encountered taste and odour problems in drinking water. Only very recently, research in aquatic chemical ecology has started to investigate possible ecological functions for the production of VOCs by algae and cyanobacteria. Volatile aldehydes released by wounded cells of marine planktonic diatoms seem to act as defensive compounds against herbivorous copepods on the population level. Just recently, it was found that VOCs released from benthic algae and cyanobacteria can be utilised as food and/or habitat finding cues by aquatic invertebrates such as freshwater gastropods and nematodes. Here, I review concepts and recent experimental studies on the ecological functions of such VOCs in aquatic ecosystems. Understanding the factors that lead to the liberation of volatile compounds is an essential prerequisite to properly assessing their ecological functions. It appears that (similar to terrestrial plant-herbivore interactions) VOCs can also play a steering role for both attraction and defence in aquatic ecosystems.     

沙地云杉幼树对食叶害虫危害的补偿与超补偿效应

从沙地云杉食叶害虫优化管理出发 ,在植物与害虫相互作用的生态系统中 ,通过人工模拟摘叶实验研究 ,结果表明 ,沙地云杉幼树在一定失叶率的条件下存在补偿和超补偿效应 ,进而以沙地云杉宏观生长指标组建了一组不同生长指标的补偿与超补偿效应模型 ,同时寻求了相应的补偿点与超补偿点 .     

Health risk assessment of volatile organic compounds in urban areas

The atmosphere is the first medium containing hazardous compounds entering the living environment. Metropolitan areas contain many industrial complex areas with high emissions of volatile organic compounds (VOCs), and consequently also large-scale exposure groups. As respiration is the most important part of the human exposure pathway, the atmosphere should be treated with greater importance than other media. It is therefore very important to monitor the emission of hazardous air pollutants (HAPs) and measure the concentration of VOCs in the atmosphere of such areas. It is essential to establish basic measures in order to protect public health as part of overall national safety management. This study utilized the national air pollution monitoring network data from Seoul, Incheon, and Gyeonggi, and investigated the differences in risk levels for humans considering various factors of the receptors, including gender and age. A total of 13 VOCs were categorized into carcinogens and noncarcinogens for risk assessment. The carcinogens 1,3-butadiene and benzene demonstrated a high level of cancer risk, ranging between 10^?4 and 10^?6, respectively. Noncarcinogens did not exceed Hazard Quotient (HQ) 1 in any area. The results will serve as important references for managing urban air environments and setting air quality standards.     

The vertical distribution of small flying insects in the lowland rain forest of Zaire

To monitor the vertical distribution of flying insects in the semi-deciduous rain forest of Zaire, two types of trap were hung at four vertical levels. Large insects were excluded. The entire catch was analysed. There was a marked concentration of flying insects within and above the canopy, over a wide range of orders. The most abundant taxa showed the greatest tendency to occur at these upper levels. Within the size range collected, biomass in general reflected abundance, but was influenced by the relatively high proportion of small insects in and above the canopy. There was a strong similarity in the relative abundance of orders between trap types and sites, but total numbers varied greatly. This variation and the biases inherent in these trapping methods are discussed and we conclude that the bulk of the small flying insects of the rain forest are concentrated in the upper canopy.     

Potential effects of elevated carbon dioxide on leaf-feeding forest insects

The elevated concentration of atmospheric CO2 may result in a decline of leaf nutritional quality (especially N) and an increase in some kinds of defensive secondary components (such as phenolics). The changes in the phytochemistry of trees, combined with the effect of elevated CO2 per se, have a potential negative influence on insect herbivores. Here, we review the effect of elevated CO2 on the performance of leaf-feeding forest insects at individual-level and commu-nity-level. The elevated CO2 per se have little influence on the metabolism of insects. Over half of the tree-insect experimental systems show that the performance of individual insect become poorer under high-CO2 grown trees; but the others show that the insects have just little or no response to the treatments. The direction and magnitude of the changes in the performance of insects could be mediated by various factors. The effects of treatment are strongly species-dependent. The magni-tude of changes in the phytochemistry, the sensitivity and adaptive capacity of insects to the poorer leaf quality, the differences in plant growth conditions and experimental methods, and the mediated effects of other environmental factors (such as soil nutrient availability, light, temperature, O3) were all closely related to the final performance of insects. However, the larvae's consumption usually increased under enriched CO2 treatment, which was widely thought to be a compensa-tory response to poorer plant quality. The experiments on forest community-level found identically a reduction in herbivory, which was contrary to the results from small-scale experiments. The changes in insect popula-tion and the actual response of consumption by leaf-feeding forest insects under CO2 enrichment remain unclear, and more field-based experiments need to be conducted.     

Potential effects of elevated carbon dioxide on leaf-feeding forest insects

The elevated concentration of atmospheric CO₂ may result in a decline of leaf nutritional quality (especially N) and an increase in some kinds of defensive secondary components (such as phenolics). The changes in the phytochemistry of trees, combined with the effect of elevated CO₂ per se, have a potential negative influence on insect herbivores. Here, we review the effect of elevated CO₂ on the performance of leaffeeding forest insects at individual-level and community-level. The elevated CO₂ per se have little influence on the metabolism of insects. Over half of the tree-insect experimental systems show that the performance of individual insect become poorer under high-CO₂ grown trees; but the others show that the insects have just little or no response to the treatments. The direction and magnitude of the changes in the performance of insects could be mediated by various factors. The effects of treatment are strongly species-dependent. The magnitude of changes in the phytochemistry, the sensitivity and adaptive capacity of insects to the poorer leaf quality, the differences in plant growth conditions and experimental methods, and the mediated effects of other environmental factors (such as soil nutrient availability, light, temperature, O₃) were all closely related to the final performance of insects. However, the larvae’s consumption usually increased under enriched CO₂ treatment, which was widely thought to be a compensatory response to poorer plant quality. The experiments on forest community-level found identically a reduction in herbivory, which was contrary to the results from small-scale experiments. The changes in insect population and the actual response of consumption by leaf-feeding forest insects under CO₂ enrichment remain unclear, and more field-based experiments need to be conducted. __________ Translated from Chinese Journal of Applied Ecology, 2006, 17(4): 720–726 [译自: 应用生态学报]