外来入侵生物福寿螺与本地生物的互作影响研究进展

福寿螺作为一种恶性的水生入侵动物, 通常进入新生境后, 种群迅速增长, 大量取食本地植物, 与本地物种形成竞争,进而对当地的生物多样性造成全方位影响。在查阅国内外研究成果基础上, 综述了福寿螺在入侵地与所处生境中本地生物(植物、动物和微生物)之间的相互影响与相关效应, 旨在为福寿螺的生态风险评估和防控提供参考。     

应用多个生态位模型预测福寿螺在中国的潜在适生区

高危性外来入侵种福寿螺严重危害我国的农业生产、生态系统完整性和人体健康.为制定有效的防控策略提供科学依据,本研究通过选取最适的生态位模型以预测福寿螺在我国的潜在适生区.结合福寿螺在我国的337条分布记录和年均温、年降水量等19个生物气候变量数据,本文采用MaxEnt、GARP、BIOCLIM和DOMAIN等4种生态位模型分别模拟预测了福寿螺在我国的潜在适生区,并利用受试者工作特征曲线(ROC)和Kappa统计量分析比较不同模型的预测效果.结果表明: 4种模型均能较好地模拟福寿螺在我国的分布,其中MaxEnt模型的模拟准确度最高(受试者工作特征曲线下的面积AUC=0.955±0.004,Kappa=0.845±0.017),其次是GARP和DOMAIN,准确度相对较小的是BIOCLIM,但其平均AUC也达0.898±0.017,平均Kappa值为0.771±0.025.MaxEnt模型的预测结果显示,福寿螺的潜在适生区主要分布在30° N以南地区,但其中也有部分地区地处30°N以北.适生区面积占国土面积的13.2%,广东、广西、湖南、重庆、浙江和福建沿海地区具有高度潜在入侵风险.本研究可以为福寿螺的科学防控提供参考,并且对大尺度上外来水生生物的适生区预测具有一定的借鉴意义.     

基于环境DNA-宏条形码技术的水生生态系统入侵生物的早期监测与预警

外来生物入侵是继生境破坏后造成生物多样性丧失的第二大威胁因素, 已对入侵地的生态安全、经济和社会发展及人类健康等造成严重负面影响, 成为21世纪五大全球性环境问题之一。作为水产养殖、航运和水生宠物交易大国, 我国水生生态系统的生物入侵问题尤为严重。研究表明, 系统地构建并应用早期监测预警技术是防控水生生态系统生物入侵最有效的途径。和陆生生物相比, 水生生物群落的物种繁多、群落结构复杂、生物形体微小且在入侵初期群体规模极小、隐匿于水下、可用于物种鉴定的外部形态缺乏, 使得在水生生态系统中构建并应用早期监测和预警体系在技术层面更具挑战。随着高通量测序技术的快速发展, 环境DNA-宏条形码技术成为构建水生生态系统入侵生物早期监测与预警技术的首选。本文主要综述了基于环境DNA-宏条形码技术的水生生态系统入侵生物的早期监测与预警技术方法; 解析了环境DNA-宏条形码监测系统的应用现状、技术优势; 着重探讨了影响监测结果准确性的I型和II型错误及其产生原因, 并为避免两类错误提供了可行的优化/改进方案; 最后对该方法在水生入侵生物监测中的应用前景进行了展望。     

五爪金龙乙醇提取物对福寿螺毒杀和水稻苗生长的影响

福寿螺和五爪金龙是两种危害严重的入侵生物,利用五爪金龙防治稻田福寿螺是以害治害的方法.盆栽条件下研究了五爪金龙乙醇提取物毒杀福寿螺的效果,以及其对水稻苗生长的影响.在砂培条件下五爪金龙乙醇提取物及其分离得到的甲醇相、乙酸乙酯相、乙醚相水溶液不仅对福寿螺起到毒杀作用, 而且对水稻秧苗生长有促进作用, 毒杀和促进作用由强到弱的顺序均为:乙醇提取物>甲醇相>乙酸乙酯相>乙醚相.在实验浓度范围内五爪金龙乙醇提物对福寿螺的毒杀效果及其对水稻苗促进作用强度均随浓度的增大而增强,在水稻土盆栽条件下抑制福寿螺取食水稻苗的效果与密达差异不显著(p>0.05).五爪金龙乙醇提取物能毒杀福寿螺,对水稻苗的生长没有不利的影响.因此, 利用五爪金龙防治稻田福寿螺危害是环境友好的非化学防治措施,具有良好的应用前景.     

福寿螺应对天敌的响应策略与机制研究进展

福寿螺(Pomacea canaliculata)作为一种世界性入侵生物,1981年引入我国大陆,严重危害水生作物生产和生态系统功能。福寿螺在入侵过程中,其表型可塑性可能在增强其环境适应性和耐受性方面扮演着重要角色。猎物对天敌诱导的防御响应是其表型可塑性中的一种表现形式。本文从福寿螺的行为(防御、生长、繁殖、后天性学习)、形态(壳形状、壳强度)和生理生化(卵、抗氧化系统)等3个方面对福寿螺应对天敌胁迫的响应策略与机制进行了总结和归纳,强调了福寿螺应对天敌胁迫的响应多样性和性别差异性,并讨论了天敌诱导下福寿螺的能量分配与权衡机制。在此基础上,对福寿螺与天敌互作机制、生物防治技术开发和效果评估等方面进行了展望。     

福寿螺入侵机制的研究进展

福寿螺(Pomacea canaliculata)是被世界自然保护联盟列入全球100种恶性外来入侵物种中唯一的一种淡水螺,已在世界范围内造成了严重的农业与生态危害。福寿螺适应性广、抗逆性强、繁殖率高、遗传多样性丰富等特点使其在新栖息地(尤其是脆弱生境)能够获得对土著种的竞争优势,并迅速建立扩大种群;福寿螺对天敌、寄生虫和病菌的防御为其生存和繁衍提供了保障;福寿螺的入侵降低了入侵地的生物多样性,并且形成恶性循环。本文从福寿螺的生态耐受性、种群遗传变异与繁殖增长、对入侵地其他生物的防御与竞争以及入侵地的生态脆弱性等4个方面对福寿螺的入侵机制进行了归纳和总结,并指出了未来在福寿螺入侵机制方面应着重研究的方向,旨在为福寿螺的预防控制提供基础资料及参考依据。     

饥饿胁迫下福寿螺的存活和产卵情况及器官组织损伤观察

【背景】福寿螺是首批被列入我国外来入侵物种黑名单的生物。近年来,有关福寿螺的研究主要集中在生物学特性、农业危害及防控等方面。其中,关于饥饿胁迫对福寿螺的影响亦有报道,但饥饿胁迫造成其器官组织损伤后的表观结构变化尚未见报道。【方法】本文研究了饥饿胁迫下福寿螺的存活和产卵情况,并通过扫描电镜对福寿螺头部和肝脏表面结构进行观察。【结果】福寿螺在饥饿25 d后存活率达90%以上;饥饿组在25 d内平均每缸产卵量为4.00块,明显低于对照组的24.33块,且福寿螺在饥饿12 d后停止产卵。通过扫描电镜观察可见,头部皱缩并有侵蚀絮状物堆叠,肝脏螺旋结构松散,并伴有深浅不一的裂痕和侵蚀状损伤。【结论与意义】短期饥饿（25 d）对福寿螺存活影响不大,但其产卵量受到明显影响,且头部和肝脏存在明显的外表破损。该结果为研究福寿螺入侵机制及防控策略提供了一定的参考。     

入侵生物福寿螺抗逆性的研究进展

福寿螺因具有较强的环境适应能力,在热带、亚热带地区大量繁殖,造成生态危害,被定义为恶性外来入侵物种。世界遭入侵的地区均采取了各种措施消灭福寿螺,但防治成效不大,因为其具有很强的抗逆性,如福寿螺能适应39℃的极端高温,能够忍受长达14d的干旱,抵抗pH4.5～9.4的酸碱侵蚀,并能抵抗化学药剂、细菌、寄生虫的威胁。因此,研究其抗逆性及其机制将有助于找到更有效的防治方法。本文综述了国内外有关福寿螺抗物理(低温、高温、干旱)、化学(酸碱性、药物)、生物(细菌和寄生虫、捕食者)因素的研究成果,旨在为防治福寿螺提供理论基础,也为进一步研究福寿螺的抗逆性提供参考。目前的研究表明,福寿螺的抗逆性由外界环境因子诱发,环境因子促成其生理状态,如代谢途径、糖类和氨基酸积累等的改变,这些变化由基因调控,可遗传给后代;外界环境因子还能引起福寿螺对逆境的行为适应性、调节产卵量等。     

广东省主要水系外来水生动物初步调查

【背景】广东省是我国遭受外来生物入侵最严重的地区之一,许多外来水生动物在广东省的河流均有分布,但有关其具体分布和数量缺乏系统研究。【方法】通过野外调查的方式对广东省鉴江、韩江、潭江、西江、北江、东江等水系的外来水生动物的分布和数量进行了初步调查,并对调查到的外来水生动物的生态学特征和入侵机制进行了初步研究。【结果】共调查到13种外来水生动物,包括巴西龟、尼罗罗非鱼、莫桑比克罗非鱼、奥利亚罗非鱼、下口鲶、革胡子鲶、食蚊鱼、麦瑞加拉鲮、露斯塔野鲮、斑点叉尾鮰、大口黑鲈等11种脊椎动物和福寿螺、克氏原螯虾2种无脊椎动物;其中以福寿螺、巴西龟和3种罗非鱼的分布最为广泛。【结论与意义】几种外来水生生物主要通过水产养殖、观赏渔业和生物防治引种入侵;典型的"R"策略者、对环境具有较强耐受力的生物、杂食性鱼类更容易成功入侵。     

福寿螺对稻田水生植物群落结构的影响

福寿螺是在我国南方地区危害水稻生产的一种外来入侵软体动物,已被世界自然保护联盟入侵生物专家组列为100种危害最为严重的外来入侵物种之一。在水域生态系统中福寿螺主要以摄食各种水生植物而生存。以水稻、大薸、水葫芦、粉绿狐尾藻、水花生和鸭舌草构成的稻田水生植物群落为对象,研究了低密度(4株/m2)、中密度(8株/m2)和高密度(12株/m2)福寿螺处理对稻田水生植物群落的影响,同时结合福寿螺的食物选择性实验分析其相关行为特性。结果表明:1)低密度、中密度和高密度福寿螺处理1周内水稻密度均急剧下降,高密度福寿螺造成水稻密度下降超过70%,2周后福寿螺危害水稻秧苗的程度减轻;2)各密度处理福寿螺均抑制了水花生和鸭舌草扩散,第8周时高密度福寿螺处理中水花生和鸭舌草的密度仅为对照的30%和25%。同时,低密度福寿螺处理中的水花生和鸭舌草的密度显著高于中密度和高密度处理。不同密度福寿螺处理对水葫芦、大薸和粉绿狐尾藻影响不明显;3)水稻的日均密度增长率为负值,低密度、中密度和高密度福寿螺处理间存在明显差异,且均显著低于对照。水花生和鸭舌草的日均密度增长率虽为正值,但显著低于对照,水葫芦、大薸和粉绿狐尾藻的日均密度增长率和对照无差异。福寿螺日均密度增长迅速,各密度处理无显著差异。福寿螺对水稻、水花生、鸭舌草的选择性显著高于水葫芦、粉绿狐尾藻和大薸;4)福寿螺引入8周后稻田水生植物群落物种多样性Simpson指数、Shannon指数和均匀度指数均显著降低。Simpson指数的大小顺序为:对照低密度中密度、高密度,Shannon指数和均匀度指数的大小顺序为:对照低密度中密度高密度。说明福寿螺对供试水生植物有明显的选择性,其入侵会严重危害稻田水生植物群落的物种多样性。     

Food Preference and Reproductive Plasticity in an Invasive Freshwater Snail

The freshwater apple snail Pomacea canaliculata has become a major crop pest in southeast Asia and Hawai'i and threatens natural wetland habitats in these regions and elsewhere. Deliberately introduced as a potential human food resource, it has also been proposed as a possible biocontrol agent against aquatic weeds. Various factors may facilitate its rapid invasion of new areas; we focus on two: growth rate and food preference. Our field observations and laboratory experiments suggest that in Hawai'i P. canaliculata reaches reproductive maturity in 10 months or more, less time than in its native temperate and seasonal Argentina, where it takes 2 years, but longer than in parts of southeast Asia, where it may take as little as 2 months. This increased growth rate, and thence reproductive rate, probably facilitate rapid population growth. Although P. canaliculata is usually considered an indiscriminate generalist macrophytophagous feeder, laboratory experiments indicated preferences among the dominant plants at our field site and growth rate differences when constrained to feed only on one of these plants. Water hyacinth (Eichhornia crassipes), a major invasive weed, was not preferred in food choice experiments, and snails offered only water hyacinth on which to feed did not differ in growth rate from unfed snails. Another important invasive weed, water lettuce (Pistia stratiotes), was also not preferred, but snails fed on it did grow, though not as quickly as those fed on green-leaf lettuce. Among the food plants offered in the experiments the native Vigna marina was the most preferred. Therefore, although a generalist, P. canaliculata exhibits some discrimination among food plants. We recommend that it not be introduced for use as a biological control agent for aquatic weeds.     

皂荚提取物的杀螺活性

[目的]研究皂荚生物农药活性,开发利用皂荚资源,发展环境友好的绿色植物源农药。[方法]采用室内生测和田间试验研究皂荚壳乙醇提取物的杀螺活性。[结果]皂荚提取物对福寿螺有显著的毒杀活性,对幼螺和成螺72 h的LC₅₀分别为40.56、109.83 mg·L^-1。田间试验表明,皂荚提取物对福寿螺有较好的防效,施用40 g·m^-2的皂荚提取物处理7 d后卵块减少率为100.00%（成螺失去产卵的能力）,防效为（99.12±1.26）%。[结论]皂荚提取物对福寿螺较好的生物防治效果,是一种潜在的生物杀螺剂。     

草地贪夜蛾综合防控技术研究进展

草地贪夜蛾是世界重大入侵性害虫,我国于2019年初发现草地贪夜蛾大面积危害西南地区玉米、高粱、甘蔗等多种作物,随后迅速扩散至主要玉米产区,严重威胁和影响我国粮食安全。国内研究人员已开展了大量关于草地贪夜蛾监测预警与防控技术的研究,在其种群发生规律监测、迁飞路径研判、化学防治、生物防治、物理防治等方面取得了系列进展,基本明确了草地贪夜蛾在我国西南、江南江淮、北方各地区的发生与危害规律,建立了一套草地贪夜蛾综合防控技术体系,有效阻断了其大面积扩散危害。本文综述了2019—2022年间国内草地贪夜蛾防控技术的研究进展,以期为开发草地贪夜蛾综合防控技术提供参考。     

Factors affecting the distribution and abundance of the commensal <Emphasis Type="Italic">Temnocephala iheringi</Emphasis> (Platyhelminthes: Temnocephalidae) among the southernmost populations of the apple snail <Emphasis Type="Italic">Pomacea canaliculata </Emphasis>(Mollusca: Ampullariidae)

Temnocephala iheringi is the most common temnocephalan inhabiting the mantle cavity of the apple snail Pomacea canaliculata, a freshwater neotropical gastropod that has become a serious rice pest in Southeastern Asia. T. iheringi has been recorded from Mato Grosso (Brazil) to water bodies associated with the Río de la Plata river (Argentina). During an extensive survey in the southern limit of the native area of P.␣canaliculata the presence of T. iheringi eggs was recorded in several apple snail populations, extending the known distribution of the commensal more than 400 km southwards. The aim of this study was to understand the factors affecting the distribution and abundance of T. iheringi among populations of P.␣canaliculata. Only 23% of the apple snail populations inhabiting streams harboured temnocephalans while the occurrence among lentic ones was 71%. T. iheringi was found mostly in populations of apple snails living in non-alkaline sites and where snails attaining sizes larger than 4 cm were very common. The prevalence of the temnocephalans in lentic populations was higher than 90%. The number of eggs on the shell (not including the umbilicus) ranged between 0 and 470 and was different among populations of P.␣canaliculata. The prevalence and number of eggs were lower in the lotic populations, except for a stream population immediately downstream of a lake with commensals. There was no difference between males and females of P. canaliculata neither in the prevalence nor in the number of eggs on the shell. The southernmost population of the world of P. canaliculata harbours commensals that tolerate cold winter water temperatures (4–5 °C) as well as its host. On the other hand, T. iheringi was found only in sites with bicarbonate concentrations lower than 6.6 meq l⁻¹, suggesting that the tolerance of the commensal is very much lower than that of the apple snail (up to 9.95 meq l⁻¹). The number of worms inside each snail or the life history variation of P. canaliculata could explain the influence of the size of the snails on the occurrence of T. iheringi. In the big-sized snails, where the number of commensals is higher, the probability of survival of at least one worm is also higher, specially during the hibernation period, when crawling and feeding are null and snails remain buried. On the other hand, P. canaliculata snails from lentic populations are generally bigger and mostly iteroparous, while those inhabiting streams are smaller and semelparous. In these populations the snails have access to mate only with snails of their same cohort, while in iteroparous populations they can copulate with individuals of other cohorts, allowing the inter-generation transmission of worms and the long term persistence of the population of commensals.     

Biological control of the exotic invasive snail Pomacea canaliculata with the indigenous medicinal leech Whitmania pigra

The apple snail Pomacea canaliculata has been an invasive species in China for decades and causes enormous losses to agriculture. The predation capability of the leech Whitmania pigra on P. canaliculata was studied for its economic benefit and potential application. In the present study, the leech W. pigra exhibited a strong predatory capacity in controlling P. canaliculata under both laboratory and field conditions, and it showed no bias towards consuming smaller snails during the experiments. More than 80% of the 80 snails (of which half had reached maturity) were preyed upon by 20 developing leeches (2–7?g) in miniature rice fields over a 15-day period, and the number of rice seedlings damaged by P. canaliculata was decreased in the presence of W. pigra. In a separate experiment, 15 developing snails were exposed to caged leeches and conspecific snails for four weeks. The food intake and growth of P. canaliculata were inhibited under the predation risk imposed by W. pigra, but the feeding rate, food conversion efficiency and survival of P. canaliculata were not conspicuously influenced.     

Isolation and characterization of pathogens attacking Pomacea canaliculata

Seven microorganisms capable of killing Pomacea canaliculata were isolated from soil samples obtained from various agricultural areas of Thailand. The identification of these microorganisms was performed using microscopic examination and biochemical tests. Five strains were identified as Pseudomonas aeruginosa and were designated P. aeruginosa 19.1, 21.2.1, B1.1, P1 and P2. The other two strains were identified as Pseudomonas fluorescens and were designated P. fluorescens 13.1 and Ct1. Pathogenicity studies of these microorganisms to P. canaliculata (Lamarck) were performed and characterized by LC₅₀ levels. The LC₅₀ levels of non-autoclave-treated and autoclave-treated cell suspensions to P. canaliculata were found to be 3.56 × 10⁴–1.35 × 10⁶ c.f.u./ml and 3.09 × 10⁴ to 1.23 × 10⁶ c.f.u./ml, respectively.     

外来植物肿柄菊对入侵生境的生态影响及其防控对策

入侵杂草肿柄菊对我国热带和亚热带地区的生物多样性和生态系统功能产生严重影响,且其入侵呈现快速扩张态势。为提高对肿柄菊入侵危害的认识水平,加强对肿柄菊的监测预警及防控,本文通过搜集、整理和分析相关文献资料,总结肿柄菊在世界各国不同地区的入侵情况及其影响,分析肿柄菊在我国入侵的历史、分布现状及其入侵对遗传多样性、物种多样性和生态系统多样性的影响。结合肿柄菊生态入侵防控研究与应用实践,指出肿柄菊入侵防控存在的主要问题和面临的挑战,并针对肿柄菊监测和高效防控技术体系提出高度重视肿柄菊入侵危害影响的分类风险评价、多元化开展肿柄菊入侵扩张的基础科学研究、建立早监测早预防的预警机制和构建针对肿柄菊入侵防控的综合技术体系等防控对策。     

外来入侵植物刺萼龙葵的入侵特征与防治策略

刺萼龙葵是原产于北美洲的恶性外来入侵植物,在世界各地广为分布,已入侵我国北方地区,严重威胁我国农牧业安全,亟待明确刺萼龙葵入侵过程与危害,为我国制定刺萼龙葵防治策略提供参考。本文对刺萼龙葵生物学和生态学特性、传播途径、入侵历史和分布特征、危害、现有防除措施及存在等问题进行综述。刺萼龙葵具有花期长、花粉萌发率和结实率高、果实和种子产量大等高繁殖能力特征;能适应多变气候和异质性生境;具有自体传播、风力传播、水力传播、动物传播和人为传播等多种传播途径;已先后入侵了我国9个省级行政区的55个区县,向华北、华中和华东快速入侵的可能性高;刺萼龙葵的植株及分泌物对人畜安全、动物皮毛质量、草地植被结构、农作物产量等方面造成严重危害,并帮助传播植物病虫害。然而,现有的化学和物理防除措施仍不能彻底遏制传播、消除危害和保障生产。为有效防除刺萼龙葵,应开展刺萼龙葵入侵风险评估,针对不同土地利用类型制定防治措施,加强入侵机制和防控技术研究。     

栎枯萎病菌检测防控研究进展

栎枯萎病菌是造成栎枯萎病的致病菌,也是我国进境植物检疫性病原菌。该病菌目前主要分布于美国,主要侵染栎属和栗属植物,可造成毁灭性危害。国内对此病菌研究较少,不利于对该病菌的认识和控制。本文对国内外关于栎枯萎病菌的研究进行了总结,重点归纳了栎枯萎病菌的分类学、分布、寄主、症状、形态学和生物学特征、检疫鉴定技术、侵染循环及防治措施等方面的信息。截至目前,该病害的防治工作方面仍面临挑战,扎实开展检疫工作仍然是防控该病菌的最重要手段。为应对栎枯萎病可能对我国林业生产造成的威胁,应加强口岸检疫鉴定、监测、处理工作及开展国内外合作。     

椰子叶螨Aceria(Eriophyes)guerreronis对我国椰子产业的风险性分析

【目的】明确刺吸式害虫椰子叶螨对我国椰子产业的风险,为该虫的检验检疫和应急防控提供参考。【方法】从椰子叶螨的国内外发生现状、潜在危害性、受害作物的经济重要性、定殖扩散的可能性以及风险管理的难度等方面,对椰子叶螨危害我国椰子产业的风险性进行定性和定量评估。【结果】椰子叶螨个体较小、传播方式多样、检疫和灭除难度较大,根据有害生物风险评估体系及多指标综合评估方法统计,该虫风险值评价指标体系R值为1.80,结合我国外来物种风险等级划分标准,属于中度危险有害生物。【结论】椰子叶螨在我国属于中度危险有害生物,对我国椰子产业具有较高的风险,需从检疫管理、检测及防控技术引进与研发等方面制定针对椰子叶螨的风险管理措施。