水稻害虫治理措施的综合评价

在对广州有机水稻生产示范区稻田节肢动物多样性和害虫控制效果调查分析的基础上,应用层次分析法对研究区有机水稻生产过程中经济、社会和生态3方面的效益和代价进行了评价.结果表明：有机水稻生产方式下所产生的综合效益最大,权重值达0.5355;生态代价在综合代价中占据主导地位;化学防治病虫害的水稻生产方式付出的生态代价最惨重,其综合代价权重值达0.6252;从综合效益代价比（RPC）来看,有机水稻生产模式是较理想的模式,其RPC值达2.4776,符合农业可持续发展的要求.     

稻田生物灾害生态调控的综合效益研究

单季稻田生物灾害生态调控的综合效益研究结果表明：综防田的蜘蛛群落和土壤动物群落的生物多样性均高于化防田。两类稻田蜘蛛群落物种数和个体数的差异性均达显著水平,而两类稻田土壤动物群落类群数和个体数均达极显著水平以上。综防田的杂草群落生物多样性显著低于化防田。综防田蛛虱数量存在正相关,说明稻田蜘蛛具有重要的生态调控作用。综防田农药用量、农药费用和农药残留均低于化防田。综防田的土地生产率、产值利税率和农副产品商品率均高于化防田。以综防田为代表的稻田生物灾害生态调控具有良好的生态、经济和社会效益。     

江南丘陵稻田湿地景观生态系统功能与效益研究──以攸县为例

在对江南丘陵典型区域──湖南省攸县的稻田湿地进行分类的基础上,分析了稻田湿地的空间格局和功能,并采用ＡＨＰ法对其综合效益进行了评价．结果表明,攸县稻田湿地可分为淹育性、渗育性、潴育性和潜育性稻田湿地４种类型,其空间优势度分别为４．１７、２６．４、１２．３２和３１．２５．稻田湿地的能量产投比为４．６８,Ｎ、Ｐ、Ｋ的产投比分别为０．５９、１．５９和１．２３,其综合效益为０．６６．     

膜下滴灌技术生态-经济与可持续性分析——以新疆玛纳斯河流域棉花为例

利用2000、2004、2006和2009年玛纳斯河流域的调查数据,以棉花为例,从生态、经济和社会可持续发展三个角度对比分析了膜下滴灌技术的应用效果.生态效益主要表现为,采用膜下滴灌比沟灌平均节水41.92％,流域内农业节约水量约为多年河道来水的9.34％,基本满足河道最小生态需水;采用膜下滴灌比沟灌节约化肥用量18.38％,节约农药用量17.00％.经济效益主要表现为,采用膜下滴灌棉花(籽棉)单产提高23.15％,水分利用效率(WUE)提高70.70％.社会效益主要表现为,采用膜下滴灌农业管理效率提高3-4倍,节约了农业劳动力.采用Bossel理论综合评价膜下滴灌技术的社会可持续性性,结果为良好.总体分析结果表明,采用膜下滴灌技术有利于区域社会经济的发展和生态环境的保护.本文的研究结果可为今后膜下滴灌技术的推广应用提供参考.     

不同利用方式下石灰性紫色土的锌形态剖面分布特征初探

分析对比了4个剖面(稻田、旱地、城墙岩群组林地、蓬莱镇组林地)Zn形态的分布特征,结果表明,稻田各形态Zn的剖面分布比旱地复杂,农地土层深厚,Zn各形态分配在层次间的变化较林地复杂．DTPA-Zn(有效态锌)在表层分配的相对较高,说明作物根系层及林木根系层缺Zn突出．对各种形态在不同剖面中的分配进行了显著性分析,结果表明,农地的碳酸盐结合态锌(3．65％)、紧结有机结合态锌(2．81％)、晶形氧化铁结合态锌(22．04％)显著大于林地(1．86％、0．84％、11．59％)．     

污水土地处理生态工程综合效益评价──以霍林河森林型慢速渗滤土地处理工程为例

为了科学、定量地评价污水土地处理生态工程的综合效益,运用层次分析法(AHP),提出了评价指标体系、指标权重和综合效益计算方法。应用此方法对霍林河森林型慢速渗滤土地处理工程的综合效益进行了分析与评价。结果表明,霍林河森林型慢速渗滤土地处理工程的综合效益值CE=0.64,属于中级生态经济系统,而且具有良好的环境效益和社会效益.     

广西滨海湿地类自然保护区管理成效评估体系构建及应用

海洋保护区事业正处于从"重面积、重数量"向"重建设、重成效"转型的重要阶段,海洋保护区,特别是滨海湿地类保护区的管理有效性评估引起了国内外生态学家的广泛关注。根据现有评估体系中存在问题,结合广西滨海湿地类自然保护区建设及发展特点,构建了"管理机制-管理基础-管理行为-管理成效"的评估框架,通过专家咨询法、层次分析法设置形成包含4个评估要素,19个评估指标以及6个附加指标在内的评估体系。本评估体系综合考虑了保护区管理工作的产出效益,包括管控成效、生态成效和社会经济成效,在指标设计时突出了保护区的生境特点,管理人员以及社会公众的保护意愿,采用分级分值制量化指标,根据长期有效数据开展评估,适用于监测业务完善的滨海湿地类型保护区。另外,选择北仑河口国家级自然保护区进行实例验证,评估结果表明:(1)保护区指标评估分值总和78分,附加3分,综合评估分值81分,管理级别Ⅱ级,保护区管理成效良好;(2)各要素得分占比情况为:C管理行为(100%) A管理机制(90%) B管理基础(87%)D管理成效(65%)。评估指标级别占比情况为:Ⅰ级(53%)Ⅱ级(21%)Ⅲ级(16%)Ⅳ级(11%);(3)3类管理成效得分占比情况为:D_2管控成效(97%)D_1生态成效(60%)D_3社会经济成效(35%)。通过分析可知,保护区管理面临主要问题包括技术能力不足、人才队伍建设薄弱、人为干扰多样等。建议保护区应加强能力建设和管控力度,推行社区共管,并关注红树林以外的其他生态系统的保护,促进区域可持续发展。     

豚草防治措施综合评价

运用层次分析法对豚草生物防治、化学防治和不实施任何防治措施的空白对照进行综合评价.对3种防治措施的综合效益和综合成本进行计算和排序,作为选择豚草防治措施的准则.结果表明：豚草生物防治所获得的综合效益最高,综合成本最低;空白对照的综合效益最低,综合成本最高;化学防治的综合效益和综合成本居中.豚草生物防治效益成本比最高,说明其是一种最为理想的防治措施,值得推广应用.     

层次分析法对南水北调中线水源区的水质评价

层次分析法(AHP)是一种多指标多因素综合评价法,其理论内容深刻而表现形式简单,包括递阶层次结构模型、判断矩阵的建立及其求值、一致性检验和综合指数计算等运算过程.在南水北调中线水源区3个采样点进行了2a的水体浮游植物和9项理化指标的检测,并应用层次分析法通过季节4因素和6项理化指标对水质进行综合评价.结果表明:层次分析综合指数PI在3采样点有差异并且变化灵敏,渠首 (陶岔S1 ) PI=0.5697,水质属于污染;库心 (小太平洋S2 ) PI=0.3619,水质属于尚清洁;丹江入库上游 (大石桥S3 ), PI=0.7755,水质属于中污染;AHP分析结果与实际基本相符.根据结果分析认为:层次分析法做为综合评价法对水质评价有重要性,值得推广应用;丹江口水库是重要的水资源,但目前水质状况并不理想,因此做好水源区的长期生态监测,加强理论和技术研究,改善水质,极为重要.     

城市发展指数和生态足迹在直辖市可持续发展评估中的应用

综合应用城市发展指数(CDI)和生态足迹(EF)指标,分析各直辖市1978—2012年的可持续发展情况,衡量发展方式由资源消耗型向环境友好型转变的程度。研究表明:各直辖市的CDI不断增长,至2012年均达到80左右,基本处于同一层次水平,城市经济社会发展状况总体良好。EF的动态变化呈现阶段性发展的特点,各直辖市间也存在显著差异,除上海市,其他3个直辖市的EF呈现增长态势,至2012年,北京EF最高(2.60 hm2/人),重庆最低(1.79 hm~2/人),是唯一一个低于全国平均EF的直辖市。综合分析CDI和EF,在相似的社会经济发展水平下,重庆市的资源消耗较低,可持续发展潜力较大;天津市一直处于资源消耗型发展中,亟待转型;近十年来,上海和北京的城市建设模式出现了一定转变,由以消耗环境资源为代价的发展模式转变为环境友好型的发展模式。     

化州市近十年稻飞虱重发原因浅析及防治对策

稻飞虱是造成水稻大面积减产甚至绝收的一类重要迁飞性害虫。为了改善和提高稻飞虱的监控技术水平,对广东省化州市历年稻飞虱测报资料进行总结分析。所得结果表明,近10年稻飞虱表现出明显的新特点:发生期显著提早;次害代发生重,重发世代增多;暴发频率加快,对水稻为害进一步加剧。剖析其原因,主要是气候有利、种植方式改变、抗药性增强和防治不当等。总结提出了调整防治策略,加强虫情测报和农业防治,选用正确药剂,改进施药方法等防治对策。     

Multi-Objective Evolutionary Optimization of Biological Pest Control with Impulsive Dynamics in Soybean Crops

The biological pest control in agriculture, an environment-friendly practice, maintains the density of pests below an economic injury level by releasing a suitable quantity of their natural enemies. This work proposes a multi-objective numerical solution to biological pest control for soybean crops, considering both the cost of application of the control action and the cost of economic damages. The system model is nonlinear with impulsive control dynamics, in order to cope more effectively with the actual control action to be applied, which should be performed in a finite number of discrete time instants. The dynamic optimization problem is solved using the NSGA-II, a fast and trustworthy multi-objective genetic algorithm. The results suggest a dual pest control policy, in which the relative price of control action versus the associated additional harvest yield determines the usage of either a low control action strategy or a higher one.     

Habitat functionality for the ecosystem service of pest control: reproduction and feeding sites of pests and natural enemies

• 1 Landscape management for enhanced natural pest control requires knowledge of the ecological function of the habitats present in the landscape mosaic. However, little is known about which habitat types in agricultural landscapes function as reproduction habitats for arthropod pests and predators during different times of the year.
• 2 We studied the arthropod assemblage on six crops and on the seven most abundant native plant species in two landscapes over 1 year in Australia. Densities of immature and adult stages of pests and their predators were assessed using beat sheet sampling.
• 3 The native plants supported a significantly different arthropod assemblage than crops. Native plants had higher predator densities than crops over the course of the year, whereas crops supported higher pest densities than the native plants in two out of four seasonal sampling periods. Crops had higher densities of immature stages of pests than native plants in three of four seasonal sampling periods, implying that crops are more strongly associated with pest reproduction than native plants. Densities of immature predators, excluding spiders, were not different between native plants and crops. Spiders were, however, generally abundant and densities were higher on native plants than on crops but, because some species disperse when immature, there is less certainty in identifying their reproduction habitat.
• 4 Because the predator to pest ratio on native plant species showed little variation, and spatial variation in arthropod assemblages was limited, the predator support function of native vegetation may be a general phenomenon. Incentives that maintain and restore native remnant vegetation can increase the predator to pest ratio at the landscape scale, which could enhance pest suppression in crops.

     

Effects of crop species richness on pest-natural enemy systems based on an experimental model system using a microlandscape

The relationship between crop richness and predator-prey interactions as they relate to pest-natural enemy systems is a very important topic in ecology and greatly affects biological control services. The effects of crop arrangement on predator-prey interactions have received much attention as the basis for pest population management. To explore the internal mechanisms and factors driving the relationship between crop richness and pest population management, we designed an experimental model system of a microlandscape that included 50 plots and five treatments. Each treatment had 10 repetitions in each year from 2007 to 2010. The results showed that the biomass of pests and their natural enemies increased with increasing crop biomass and decreased with decreasing crop biomass; however, the effects of plant biomass on the pest and natural enemy biomass were not significant. The relationship between adjacent trophic levels was significant (such as pests and their natural enemies or crops and pests), whereas non-adjacent trophic levels (crops and natural enemies) did not significantly interact with each other. The ratio of natural enemy/pest biomass was the highest in the areas of four crop species that had the best biological control service. Having either low or high crop species richness did not enhance the pest population management service and lead to loss of biological control. Although the resource concentration hypothesis was not well supported by our results, high crop species richness could suppress the pest population, indicating that crop species richness could enhance biological control services. These results could be applied in habitat management aimed at biological control, provide the theoretical basis for agricultural landscape design, and also suggest new methods for integrated pest management.     

Improving the biological control of leafminers (Diptera: Agromyzidae) using the sterile insect technique

The leafminer Liriomyza trifolii (Burgess) (Diptera: Agromyzidae) is a worldwide pest of ornamental and vegetable crops. The most promising nonchemical approach for controlling Liriomyza leafminers in greenhouses is regular releases of the parasitoid Diglyphus isaea (Walker) (Hymenoptera: Eulophidae). In the current study, we examine the hypothesis that the use of D. isaea for biological control of leafminers in greenhouse crops may be more practical and efficient when supplemented with additional control strategies, such as the sterile insect technique (SIT). In small cages, our SIT experiments suggest that release of sterile L. trifolii males in three sterile-to-fertile male ratios (3:1, 5:1, and 10:1) can significantly reduce the numbers of the pest offspring. In large cage experiments, when both parasitoids and sterile males were released weekly, the combined methods significantly reduced mine production and the adult leafminer population size. Moreover, a synergistic interaction effect between these two methods was found, and a model based on our observed data predicts that because of this effect, only the use of both methods can eradicate the pest population. Our study indicates that an integrated pest management approach that combines the augmentative release of the parasitoid D. isaea together with sterile leafminer males is more efficient than the use of either method alone. In addition, our results validate previous theoretical models and demonstrate synergistic control with releases of parasitoids and sterile insects.     

我国农业害虫综合防治研究现状与展望

害虫综合防治作为农业生产的一项重要策略,在农业可持续发展中具有举足轻重的作用。近年来,针对我国害虫防治所存在的技术需求,科技部等部门先后通过973计划、863计划、科技支撑计划和农业行业专项等对重要害虫防治研究立项支持。通过这些项目的实施,我国建成了一支由国家和省级科研单位和大学组成的专业科研队伍和研究平台,对害虫监测预警技术、基于生物多样性保护利用的生态调控技术、害虫生物防治技术、化学防治技术、抗虫转基因作物利用技术等方面的研究取得了一系列的重要进展,研究建立了棉花、水稻、玉米、小麦和蔬菜等作物重要害虫的综合防治技术体系,并在农业生产中发挥了重要作用。以基因工程和信息技术为代表的第二次农业技术革命的到来,推动了害虫综合防治的理论发展,为害虫综合防治技术的广泛应用提供了新的机遇。地理信息系统、全球定位系统等信息技术和计算机网络技术的应用,提高了对害虫种群监测和预警的能力和水平,转基因抗虫作物的商业化种植等技术的应用显著增强了对害虫种群的区域性调控效率。针对产业结构调整和全球气候变化所带来的害虫新问题,进一步发展IPM新理论与新技术将成为我国农业昆虫学研究的重要方向之一。     

Approaches to conserving natural enemy populations in greenhouse crops: current methods and future prospects

Biological pest control in greenhouse crops is usually based on periodical releases of mass-produced natural enemies, and this method has been successfully applied for decades. However, in some cases there are shortcomings in pest control efficacy, which often can be attributed to the poor establishment of natural enemies. Their establishment and population numbers can be enhanced by providing additional resources, such as alternative food, prey, hosts, oviposition sites or shelters. Furthermore, natural enemy efficacy can be enhanced by using volatiles, adapting the greenhouse climate, avoiding pesticide side-effects and minimizing disrupting food web complexities. The special case of high value crops in a protected greenhouse environment offers tremendous opportunities to design and manage the system in ways that increase crop resilience to pest infestations. While we have outlined opportunities and tools to develop such systems, this review also identifies knowledge gaps, where additional research is needed to optimize these tools.     

Evidence for behavioural resistance by the diamondback moth, Plutella xylostella (L.)

Abstract:  The diamondback moth (DBM), Plutella xylostella (L.) (Lep., Plutellidae), is an important pest of brassicaceous crops worldwide. It has developed resistance to almost every synthetic insecticide applied in the field and consequently is often difficult to control in crucifer-growing areas. DBM oviposition behaviour was investigated in greenhouse and growth chamber conditions with seven cruciferous and one non-cruciferous plant varieties. In free choice tests, females deposited more eggs on the stem near the soil-stem interface than on leaves. Our findings suggest that DBM is capable of developing behavioural resistance through oviposition site selection to avoid lethal doses of foliar-applied insecticides in the field.     

A simple criterion for successful biological control on annual crops

Population dynamics of pest insect-natural enemy systems on annual crops is quite different from those seen in classic biological control programes. On an annual crop, for example, the persistence of populations of pest insects is forced to terminate when crops are harvested. Pest control on annual crops aims to suppress the maximum density of the pest below a certain level, and a low level equilibrium is not always the aim. It is important to determine the initial impact just after release of a natural enemy in order to determine the success of a biological control program. Therefore, effectiveness of natural enemies should be evaluated by prediction of such short-term population dynamics. This paper presents a new and simple analytical model for successful biological control on annual crops. A criterion of successful biological control is given as the ratio of the pest and natural enemy populations just when the pest begins to decrease. This ratio is derived from the intrinsic rates of natural increase of both populations and the daily total predation by natural enemies. Using this model, criteria on appropriate number and time of release of natural enemies are obtained. The practical applications of this model are discussed with respect to evaluating the success or failure of natural enemy releases in future biological control programs.     

植食性昆虫学习行为与害虫治理的关系

植食性昆虫的学习行为一般具有习惯性反应、厌恶性学习、联系性学习、敏感性反应、嗜好性诱导几种类型,它们对害虫防治方法的效果具有重要影响。害虫通过嗜好性诱导对栖境中大面积单作农作物造成更大的危害,通过联系性学习可对诱虫植物的效果产生积极或消极的影响。害虫对驱避剂或杀虫剂等产生习惯性反应可降低其防治效果。害虫对寄主植物驱避抗性产生习惯性学习就会加重对作物的为害,产生厌恶性学习则有利于对作物的保护。利用害虫的联系性学习行为,释放前让不育雄虫学习自然交配场所的环境刺激,可增强通过释放不育雄虫控制害虫的防治效果。了解植食性昆虫学习行为对害虫治理的影响有助于研究和发展有效的栖境调控、行为调控等策略和方法。