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    气候变暖情景下上海园林树木抗病虫能力评价

    Evaluation system for the resistance of landscape tree to diseases and pests and its application in Shanghai under climate warming

    • 摘要: 全球气候变暖对全球生态系统的结构与功能已造成严重影响,在城市生态系统中,开展气候变暖背景下的园林树种抗病虫害能力评价是合理有效选择园林树种的依据之一。本文按照抗性筛选、抗性评估、抗性管理3个层次,构建了上海园林树木抗病虫害能力评价体系,并在根据寄主梳理病虫害名录的基础上,对上海常见的32种园林树木在气候变暖情景下的抗病虫能力进行了评估。本评价体系包括抗病害和抗虫害两大方面的内容,其中,抗病害能力分为抗非致死类叶部病害、枝部病害、根部病害、致死类病害4个层次;抗虫害能力分为抗蛀干性害虫、食叶性害虫、刺吸性害虫、地下害虫4个层次。评价结果表明:在气候变暖情景下,上海园林树木对病虫害的高感树种有6种(合欢、加拿利海枣、二球悬铃木、香樟,杜鹃、日本晚樱)、易感树种6种(苏铁、重阳木、垂柳、冬青卫矛、桂花、海桐)、低抗树种8种(女贞、水杉、枫杨、栾树、三角枫、垂丝海棠、木槿、构骨)、中抗树种10种(苦楝、银杏、广玉兰、雪松、杜英、蚊母、紫叶小檗、蜡梅、八角金盘、石楠)、高抗树种2种(白玉兰、山茶)。本文构建的抗病虫害评估体系为园林树木在气候变暖情景下对病虫害的抗性能力检测提供了有效的评估方法,从过去仅针对单一或少数病虫的个案研究,转变为针对多个树种病虫害抵抗能力的整体性研究。对响应气候变暖情景下园林树木病虫害的发生、发展状态以及选择合理的绿化树种和制定城市园林养护的可持续管理方案具有一定的参考价值。

       

      Abstract: Global warming has seriously affected the structure and function of global ecosystems. In urban tree species selection, resistance evaluation system of tree pests and disease is one of the rational and effective approaches in the context of climate warming. According to the three levels of resistance screening, resistance evaluation and resistance management, an evaluation system of tree pests and disease resistance was constructed. Based on the explored literature, 32 urban tree species in Shanghai were evaluated by the evaluation system under climate warming. The evaluation system includes two aspects of disease resistance and pest resistance, among which, the disease resistance is catogorilized into four levels: non-lethal leaf disease, branch disease, root disease and lethal disease, and the pest resistance contains trunk borer pests, leaf-eating pests, sucking pests and underground pests.The results showed that 6 specices (Albizzia julibrissin, Phonex canariensis, Platanus acerifolia, Cinnamomum camphora, Rhododendron simsii, Cerasus serrulata) were in high fection level, 6 species (Cycas revoluta, Bischofia polycarpa, Salix babylonica, Euonymus japonicus, Osmanthus fragrans, Pittosporum tobira) were susceptible, 8 species (Ligustrum lucidum, Metasequoia glyptostroboides, Pterocarya stenoptera, Koelreuteria paniculata, Acer buergerianum, Malus hallian, Hibiscus syriacus, Ilex cornuta) were in low resistance, 10 pieces (Melia azedarach, Ginkgo biloba, Magnolia grandifolia, Cedrus deodara, Elaeocarpus decipiens, Distylium racemosum, Berberis thunbergii, Chimonanthus praecox, Fatsia japonica, Photinia serrulata) were in medium resistance, 2 species(Magnolia denudata, Camellia japonica) were in high resistance. Therefore, the evaluation system provides an effective method to evaluate the resistance of landscape trees from a case study of single or few pests and diseases to the multi-holistic research. Meanwhile, it has a certain reference value for the occurrence and development of tree pests and diseases in response to climate warming, and it is helpful for reasonable tree species selection and sustainable management.

       

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