不同干扰措施对松材线虫入侵松林内物种多样性的影响

经野外调查发现:松材线虫入侵松林后,对原先林型相同的两块染病松林而言,经过人为伐除和保留受害木这两种干扰措施后,任其自然恢复更新,后恢复的林型会大不相同,即对受害木采取不同的干扰措施会对染病松林内林下植被的更新产生不同的影响.基于以上出发点,以松材线虫入侵后采取不同伐除干扰措施的2个马尾松受害群落为研究对象,针对受害木移除和保留两种处理方式,选择α多样性指数函数Rényi指数为测量单位,探讨了不同受害木处理方式下植物多样性的变化规律.结果表明:受害木及时移走的松林内林下灌草多样性比受害木保留的要高.     

松材线虫入侵后不同伐倒干扰强度对马尾松林植物多样性的影响

以松材线虫入侵马尾松林后经过不同伐倒干扰强度经营形成的不同群落类型作为研究对象,对9个群落类型的物种多样性进行了研究.结果表明,乔木层物种多样性指数大小排列顺序为: 马尾松纯林受害皆伐后形成的阔叶林(富阳)＞轻度受害的马尾松 木荷混交林(富阳)＞对照＞轻度受害的马尾松 纯林(富阳)＞马尾松 栓皮栎混交林受害择伐后形成的栓皮栎林(舟山)＞马尾松纯林受害皆伐后形成的马尾松幼龄林(富阳)＞马尾松纯林受害择伐后形成的枫香林(舟山)＞受害的黑松 马尾松混交林(舟山)＞受害的马尾松纯林(舟山).灌木层舟山马尾松纯林的3种多样性指数均最低,其余各地相差不大.草本层马尾松幼树纯林、栓皮栎林和枫香林的3个指数较高.不同地理位置和不同受害程度的马尾松林植物多样性差异显著;不同干扰程度、不同恢复方式下马尾松林内的植物多样性差异也显著.建立了伐倒干扰强度指数,发现物种多样性指数随伐倒干扰强度指数的变化规律符合“中间高度膨胀”理论.协方差分析结果表明,所建的指数能有效地反映松材线虫入侵及病木伐除后马尾松林植物多样性的变化.     

化学通讯在松材线虫侵染和扩散中的作用

松材线虫为外来入侵种 ,由其引起的松材线虫病正在我国迅速扩散蔓延 ,造成我国部分地区松林资源的毁灭性破坏。松材线虫病的发生和流行与媒介天牛、寄主植物、共生真菌和细菌密切相关 ,松材线虫 -墨天牛 -松树 -共生微生物之间存在着广泛的化学联系 ,它们通过化学互作 ,调控松材线虫的行为 ,影响松材线虫的侵染和扩散     

浙江富阳地区松材线虫入侵对马尾松林群落植物多样性的影响

通过对浙江富阳36块不同马尾松混交比率及不同松材线虫危害程度林地的调查,定量分析了这些林分受不同程度的松材线虫入侵干扰后,其乔灌草三层植物多样性的变化规律。分析结果表明:松材线虫的入侵减小了不同林分比例的马尾松群落之间乔灌草三层多样性的差异;随着松材线虫危害程度的加重,不同树种组成松林的乔灌草三层多样性指数出现新的特点,即两极化→趋于一致→两极化。进一步分析表明:浙江富阳地区的群落类型处在常绿阔叶林前期向中期演替的过程中;并且随着这种复合干扰程度的不断增加,加快了松林从常绿阔叶林演替前期向中期发展的进程。     

实验室条件下中国和北美松材线虫(Bursaphelenchus xylophilus)(Tylenchida:Aphelenchoididae)分离株之间的发育差异

正松材线虫(Bursaphelenchus xylophilus(Steiner和Buhrer,1934)),是松树萎蔫病的主要致病因子,是一种起源于北美的入侵物种.然而,并未有在起源地大规模爆发的报道~([1]).松材线虫于1900年左右传入日本,1982年在我国首次发现,近期扩散到葡萄牙和西班牙,对亚洲和欧洲的松林造成了巨大的破坏.浙江省舟山区是中国受灾最严重的地区之一(413 km~2),几乎所有     

松材线虫对其携带的细菌繁殖的影响

1.引言松材线虫病（Bursaphelenchus xylophilus）是松树的一种毁灭性病害,在日本、中国、韩国和北美、尼日利亚和葡萄牙等国家蔓延,造成了巨大经济损失,其中以日本和中国受害最重.一直认为松材线虫是引起该病的唯一病原,但近十几年来的研究发现,细菌在致病过程中可能起着重要作用,相继从病木和松材线虫体上分离到能对黑松苗有致萎活性的细菌.赵博光等首次根据实验提出松材线虫病是线虫和细菌共同侵染引起的复合侵染病害的假说,并在以后的试验中得到了验证.关于松材线虫对其细菌繁殖的影响研究鲜有报道.本试验采用从感病松树上分离并鉴定了的细菌菌株中选取假单胞属7株、其它属的细菌菌株3株,     

松材线虫及其关键传媒墨天牛的研究进展

松材线虫Bursaphelenchusxylophilus (Steiner&Buhere,1 93 4Nickle,1 981 )是一种世界多国公认的重大外来生物。其原产地在美国 ,但松材线虫并不严重危害该国松林 ;日本受害最重 ,经过几十年的研究与防治 ,现已基本能控制松材线虫病大发生。自 1 982年我国南京中山陵首次发现松材线虫以来 ,其在我国的扩散趋势越来越明显 ,现已成为我国一种重要入侵病原生物。它不但对我国南方数百万公顷松林构成毁灭性威胁 ,影响我国经济和社会可持续发展 ,而且将破坏我国一些著名风景名胜区、文化遗产地。同时 ,松材线虫正成为一项技术壁垒 ,严重影响我国的进出口贸易。该文简要从松材线虫及其关键传煤墨天牛Monochamusspp .的生物学特性、分布状况 ,松材线虫病的蔓延条件及影响因素等方面概述国内外的研究动态 ,以期为我国对松材线虫的研究与防治工作提供参考     

不同干扰模式对受害马尾松人工纯林林分结构的影响

在浙江安吉选择松材线虫病危害的马尾松人工纯林,分别进行暂不采伐直至10年后统一伐除受害木的集中干扰、采伐受害松木的适度干扰、采伐受害松木与周边松木及生长势弱松木的强度干扰,探讨不同干扰模式使受害马尾松林恢复健康的可能性.16年后的试验结果表明: 3种模式下受害林分马尾松的重要值为集中干扰>适度干扰>强度干扰,阔叶树的重要值则正好相反;与集中干扰相比,适度和强度干扰后的马尾松、阔叶树的平均胸径分别提高1.2、1.7倍和1.3、1.9倍,平均树高分别提高了1.5、2.0倍和1.2、1.8倍,林分每公顷蓄积量分别是集中干扰样地的5.2和3.8倍;适度和强度干扰的各径阶株数均远高于集中干扰样地,胸径结构近似于反J型曲线,也形成了复层林,物种丰富度和多样性指数均显著高于集中干扰样地,林木个体差异及林分复杂性指数均表现为适度干扰>强度干扰>集中干扰.适度和强度干扰下单层马尾松同龄纯林均演替为复层马尾松-阔叶树混交异龄林.3种模式均是正向阔叶化演替,演替速度为强度干扰>适度干扰>集中干扰.表明适度干扰更有利于病害马尾松林分恢复,间伐马尾松纯林能加快阔叶混交化进程以抵御松材线虫病的入侵.     

基于多光谱卫星影像与机器学习算法的松材线虫病受害林分识别研究

松材线虫病（Pine Wilt Disease,PWD）被称为“松树癌症”,具有高传染率和高死亡率,对我国森林资源构成了严重的威胁,对我国的经济、社会和生态造成了重大损失。及时发现并清理疫木是遏制松材线虫病蔓延的有效手段,精准监测疫木是防控松材线虫病的前提,但是现阶段缺少大面积识别松材线虫病疫木的技术方法。本文旨在探索哨兵-2号与Landsat-8遥感卫星影像对受害松林的识别能力,采用随机森林（Random Forest,RF）、支持向量机（Support Vector Machine,SVM）、决策树（Decision Tree,DT）和极端梯度提升（Extreme Gradient Boosting,XGBoost）等4种机器学习算法建立了松材线虫病监测模型。结果表明：基于哨兵-2号影像数据建立的监测模型对受害松林的识别准确率高于Landsat-8遥感卫星影像,其中基于10 m分辨率的影像数据建立的监测模型识别准确率最高,随机森林、决策树、支持向量机和极端梯度提升等算法建立模型的准确率分别达到了79.3%、76.2%、78.7%和78.9%。在3种不同的影像数据集中,RF、SVM和XGBoost的准确率、Kappa系数和ROC值接近,均明显优于决策树算法。光谱特征中的绿波段、红波段、短波近红外波段和长波近红外以及植被指数中的NBRI、NGRDI、TVI、NDVI和PSSR等对松材线虫病监测模型的贡献值最高。递归消除法对特征参数的筛选效果最好,特征数量由原来50个减少至35个。本研究建立的松材线虫病受害林分监测模型为科学防控松材线虫病提供了技术支撑。     

辽宁抚顺松材线虫入侵松林内天牛种类调查

【目的】松材线虫Bursaphelenchus xylophilus (Steiner&Buhrer) Nickle的媒介昆虫云杉花墨天牛Monochamus saltuarius Gebler在辽宁省被发现意味着我国北方松林的生态安全正在遭受严重的威胁。明确松材线虫入侵松林内的天牛种类、数目,可以为早期监测松材线虫媒介昆虫和潜在媒介昆虫的种群动态以及预测松材线虫病的发生提供参考。【方法】为了明确天牛广谱型引诱剂、APFI持久增强型松墨天牛高效诱剂、F8型松墨天牛引诱剂及其复配诱芯的诱捕效果,于2019-2020年的5-10月在辽宁省抚顺市的油松林、红松林、落叶松林开展诱捕天牛试验。【结果】将天牛广谱型引诱剂和F8型松墨天牛引诱剂放在同一诱捕器中具有较好引诱效果,每诱捕器捕获的天牛物种数量（油松林18种,红松林14种,共计19种）和天牛样本数量（油松林（18.31±8.86）头/周,红松林（23.44±10.92）头/周）最多。在试验林地共计诱捕到34种共计13307头天牛,其中云杉花墨天牛数量最多,占总诱捕量的67%,褐梗天牛Arhopalus rusticus、锯天牛Prionus insularis、小灰长角天牛Acanthocinus griseus、松皮花天牛Rhagium japonicum分别占总诱捕量的13.2%、6.6%、4.1%和2.7%。【结论】捕获到危害针叶树的天牛8种,包括云杉花墨天牛（优势种）、小灰长角天牛、灰长角天牛Acanthocinus aedilis、褐梗天牛、脊鞘幽天牛Asemum striatum和锯天牛。根据天牛的取食产卵习性推测,小灰长角天牛、灰长角天牛在补充营养的时候可能会传播松材线虫到健康松树上,而褐梗天牛、脊鞘幽天牛和锯天牛羽化成虫后不需补充营养且产卵在衰弱木的树皮缝隙或者表土处,它们有效传播松材线虫的几率较小。     

Traits of Masson Pine Affecting Attack of Pine Wood Nematode

Masson pine characteristics were analyzed in five sample plots in Zhejiang Province, China. Bursaphelenchus xylophilus （Steiner et Buhrer） Nickle （pine wood nematode, PWN） carried by Monochamus alternatus predominately attacked Masson pines in the lower diameter classes. Among the 10 tree characteristics examined, mean crown width, percentage of bole with crown, 5-year cumulative diameter growth, and resin amount showed significant variation between successfully attacked and unattacked trees. The attacked trees had a lower percentage of the bole covered with tree crown, lower crown width, lower radial growth in the last 5 years, and produced less induced resinosis than unattacked trees. Results allowed for effective ranking of the pine forest based on individual tree resistance to PWN. This index of resistance should be considered throughout the development of an ＂Evaluation Criterion and Indicator System＂. The preceding ranking can be used to evaluate the resistance and resiliency of the pine forest ecosystem to PWN＇s invasion, which is similar to Pest Risk Analysis （PRA）.     

The ratio and concentration of two monoterpenes mediate fecundity of the pinewood nematode and growth of its associated fungi

The pinewood nematode (PWN) Bursaphelenchus xylophilus, vectored primarily by the sawyer beetle, Monochamus alternatus, is an important invasive pest and causal agent of pine wilt disease of Chinese Masson pine, Pinus massoniana. Previous work demonstrated that the ratios and concentrations of α-pinene∶β-pinene differed between healthy trees and those trees containing blue-stain fungus (and M. alternatus pupae). However, the potential influence of the altered monoterpene ratios and concentrations on PWN and associated fungi remained unknown. Our current results show that low concentrations of the monoterpenes within petri dishes reduced PWN propagation, whereas the highest concentration of the monoterpenes increased PWN propagation. The propagation rate of PWN treated with the monoterpene ratio representative of blue-stain infected pine (α-pinene∶β-pinene = 1∶0.8, 137.6 mg/ml) was significantly higher than that (α-pinene∶β-pinene = 1∶0.1, 137.6 mg/ml) representative of healthy pines or those damaged by M. alternatus feeding, but without blue stain. Furthermore, inhibition of mycelial growth of associated fungi increased with the concentration of the monoterpenes α-pinene and β-pinene. Additionally, higher levels of β-pinene (α-pinene∶β-pinene = 1∶0.8) resulted in greater inhibition of the growth of the associated fungi Sporothrix sp.2 and Ophiostoma ips strains, but had no significant effects on the growth of Sporothrix sp.1, which is the best food resource for PWN. These results suggest that host monoterpenes generally reduce the reproduction of PWN. However, PWN utilizes high monoterpene concentrations and native blue-stain fungus Sporothrix sp.1 to improve its own propagation and overcome host resistance, which may provide clues to understanding the ecological mechanisms of PWN''s successful invasion.     

Pine invasion impacts on plant diversity in Patagonia: invader size and invaded habitat matter

Conifers, which are widely planted as fast growing tree crops, are invading forested and treeless environments across the globe, causing important changes in biodiversity. However, how small-scale impacts on plant diversity differ according to pine size and habitat context remains unclear. We assessed the effects of different stages of pine invasion on plant communities in forest and steppe sites located in southern Chile. In each site, we sampled plant diversity under and outside the canopy of Pinus contorta individuals, using paired plots. We assessed the relative impact of pine invasion on plant species richness and cover. In both sites, richness and cover beneath pine canopy decreased with increasing pine size (i.e. height and canopy area). A significant negative impact of pines on species richness and plant cover was detected for pines over 4 m in height. The impact of pines on plant richness and cover depended on pine size (i.e. canopy area) and habitat type. Larger pines had more negative impacts than smaller pines in both sites, with a greater impact for a given pine size in the Patagonian steppe compared to the A. araucaria forest. Species composition changed between under and outside canopy plots when pines were 4 m or taller. Pine presence reduced cover of most species. The impacts of pine invasions are becoming evident in forested and treeless ecosystems of southern Chile. Our results suggest that the magnitude of pine invasion impacts could be related to how adapted the invaded community is to tree cover, with the treeless environment more impacted by the invasion.     

松材线虫及其传媒松墨天牛的监测和防治现状

松材线虫起源于北美大陆。1 982年侵入中国。松材线虫能引起一种林业上最具危险性、毁灭性的病害“松材线虫病”。松材线虫病的病因复杂,传播途径多样,不同国家地区对其采取的监测和防治策略也有所差异。目前,该病局限分布于北美和东北亚,但在世界范围内其扩散趋势日益明显。该文简要从监测预警,物理、化学、生物等防治方法、以及监测防治中存在问题和发展趋势等方面概述了国内外松材线虫Bursaphelenchusxylophilus及其关键传媒松墨天牛MonochamusalternatusHope的研究现状,对制定适宜我国的松材线虫病监测和防治策略有借鉴和参考价值。     

Impact of Pinewood Nematode in North America: Present and Future

Bursaphelenchus xylophilus, pinewood nematode (PWN), is the most serious pest of pine forests in Japan, but in North America its role in pine wilt disease is still being studied. The PWN is known to infest many species of Pinus, with P. nigra, P. sylvestris, and P. thunbergii the most susceptible in the eastern United States. Because of its potential, several European countries (Finland, Norway, and Sweden) and Korea have established embargoes against the importation of coniferous wood from regions of the world known to be infested with the PWN. Although the PWN is not considered an economic pest in North American forests, the recent embargoes have established an impact on current forest management practices and an economic impact on North American export trade.     

松材线虫侵袭引发的植被演替对鸟类群落的影响

松材线虫(Bursaphelenchusxylophilus)是引起严重森林病害的外来物种,可能导致森林生态系统急剧退化。为了探讨在松材线虫侵袭所引起的森林演替过程中植被结构变化对鸟类群落的影响,我们研究了这些常绿阔叶演替林中的鸟类群落结构。2004年5–6月,我们在浙江省宁波市选择了分别处于3个不同演替阶段的7个样地:包括象山县被松材线虫侵袭5年后的常绿阔叶灌丛和侵袭12年后的常绿阔叶林样地各3个,同时在天童国家级森林公园选择了约40龄的常绿阔叶林样地1个。结果显示,在常绿阔叶灌丛和松材线虫侵袭12年后的常绿阔叶林中,鸟类物种多样性和丰富度均显著高于约40龄常绿阔叶林;3类栖息地的鸟类多度、均匀度均无显著差异;在侵袭12年后的常绿阔叶林中鸟类群落最丰富。多元回归分析结果显示,立地年龄是影响鸟类群落组成的主要因素。     

基于线性分位数混合效应的辽东山区红松冠幅模型

冠幅是反映单木生长状态及构建林木生长收获模型的重要变量。本研究以辽东山区大边沟林场10～55年生红松人工林为对象,基于66块固定样地的2763株红松的每木检尺数据,选取冠幅基础模型,采用再参数化的方法引入单木竞争指标(R_d),利用哑变量的方法引入了林分密度、林层变量,构建不同分位点(0.50、0.90、0.93、0.95、0.96、0.99)的冠幅分位数回归模型,并与传统方法进行比较,选取模拟林分最大冠幅的最优分位点。为反映林分中单木冠幅在林木个体之间的差异,建立了基于样地水平的最优分位点的线性混合效应分位数回归冠幅模型,分析各变量对单木冠幅的影响。结果表明: 基于F统计检验,不同林分密度和林层的冠幅模型具有显著差异,在基础模型中引入林层、林分密度和竞争后,模型R_a²提高0.0104,均方根误差降低0.0115,均方误差降低为7.4%;与最小二乘法比较,分位数回归模型能够较好地模拟林分状态下的单木最大冠幅,并选出0.96分位点和0.93分位点作为上林层和下林层的分位数回归模型的最优分位点。引入混合效应的线性分位数回归模型的赤池信息准则、贝叶斯信息准则、HQ信息准则等评价指标优于传统分位数回归,参数标准误显著降低,混合效应的引入很好地解释了样地之间的差异。就上林层和下林层而言,林分密度越大,最大冠幅越小;相对直径越大,最大冠幅越大,其中林分密度对下林层的冠幅影响大于上林层,当林分密度足够大时,冠幅随着胸径的增大先增大后降低。本研究构建的基于混合效应的分位数回归模型能有效提高模型的拟合优度,今后可通过调控林分密度、适度抚育间伐等措施,实现对辽东山区红松人工林的科学营建和可持续发展。