Diversity and Distribution of Xylophagous Beetles from Pinus thunbergii Parl. and Pinus massoniana Lamb. Infected by Pine Wood Nematode

Xu Chu,Meijiao Yang,Xia Hu,Feiping Zhang,Guanghong Liang,Qiuyu Ma,Guoqiang Li,Songqing Wu,Jinyan Liu,Rong Wang

doi:10.3390/f12111549

Abstract

The vectors of pinewood nematode of Bursaphelenchus xylophilus (Steiner & Bührer, 1934) are mainly known as xylophagous beetles. Understanding the composition and distribution of these xylophagous beetles in host pine trees infected by PWN is critical to control the spread of PWN. In this study, we investigated the community structures of the xylophagous beetles in two main host trees in Fujian and Shandong, Pinus massoniana Lamb. and Pinus thunbergia Parl., in different stages of infection. All beetles were collected by dissecting the whole pine trees and then identified by their morphological characteristics and COI genes. The results showed that the diversity of xylophagous beetles was different not only between the two host pine trees but also among the different infection stages. The diversity of P. massoniana xylophagous beetles was significantly higher than that of P. thunbergii, and there were also significant differences in the different stages of PWN infection. In total, Scolytinae was the most common (53.70%), followed by Curculionidae (18.26%), Cerambycidae (16.31%), and Cleridae (6.04%). Monochamus alternatus, the most important vector of PWN, occupied a large niche and showed different aggregation positions during the three infection stages in both host trees. This result might be related to the resistance of bark beetles to host trees and competition with other xylophagous beetles. The community diversity of xylophagous beetles was jointly affected by both the infection stages of PWN and the spatial niche of xylophagous beetles. Knowledge of the diversity and competitive relationships among xylophagous beetles might help regulate the population dynamics of these beetles.

Highlights

Pine wilt disease (PWD) is an internationally recognized destructive disease of pine trees caused by pinewood nematode (PWN)
The results of investigating P. massoniana and P. thunbergii infected with PWN were as follows: the average DBH of P. massoniana was 17.3 cm (14 m higher on average); the average DBH of P. thunbergii was 12 cm (12.3 m higher on average) (Table A1)
Nine species were taken from the P. massoniana forest and nine species were taken from the P. thunbergii forest

Summary

Introduction

Pine wilt disease (PWD) is an internationally recognized destructive disease of pine trees caused by pinewood nematode (PWN). Due to its strong pathogenic ability and rapid transmission, PWD is difficult to cure once pine forests are infected, which poses a great threat to China’s forest ecosystem [3,4]. This disease has spread to 726 county administrative regions among the 18 provinces in China, covering an area of 1.8092 million hectares and producing a cumulative number of dead pine trees close to 19.47 million [5]. Pinus massoniana (Lamb, 1803) and Pinus thunbergii (Parl, 1868) are important afforestation trees in the north and south of China, respectively, and are the main host trees of Bursaphelenchus xylophilus (Steiner and Buhrer 1934). To protect these pine forests, it is urgent to control the transmission of B. xylophilus

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Conclusion