Pine wilt disease alters soil properties and root-associated fungal communities in Pinus tabulaeformis forest

Abstract Background Pine wilt disease (PWD) is a major ecological concern in China that has caused severe damage to millions of Chinese pines (Pinus tabulaeformis). To control the spread of PWD, it is necessary to develop an effective approach to detect its presence in the early stage of infection. One potential solution is the use of Unmanned Airborne Vehicle (UAV) based hyperspectral images (HIs). UAV-based HIs have high spatial and spectral resolution and can gather data rapidly, potentially enabling the effective monitoring of large forests. Despite this, few studies examine the feasibility of HI data use in assessing the stage and severity of PWD infection in Chinese pine. Method To fill this gap, we used a Random Forest (RF) algorithm to estimate the stage of PWD infection of trees sampled using UAV-based HI data and ground-based data (data directly collected from trees in the field). We compared relative accuracy of each of these data collection methods. We built our RF model using vegetation indices (VIs), red edge parameters (REPs), moisture indices (MIs), and their combination. Results We report several key results. For ground data, the model that combined all parameters (OA: 80.17%, Kappa: 0.73) performed better than VIs (OA: 75.21%, Kappa: 0.66), REPs (OA: 79.34%, Kappa: 0.67), and MIs (OA: 74.38%, Kappa: 0.65) in predicting the PWD stage of individual pine tree infection. REPs had the highest accuracy (OA: 80.33%, Kappa: 0.58) in distinguishing trees at the early stage of PWD from healthy trees. UAV-based HI data yielded similar results: the model combined VIs, REPs and MIs (OA: 74.38%, Kappa: 0.66) exhibited the highest accuracy in estimating the PWD stage of sampled trees, and REPs performed best in distinguishing healthy trees from trees at early stage of PWD (OA: 71.67%, Kappa: 0.40). Conclusion Overall, our results confirm the validity of using HI data to identify pine trees infected with PWD in its early stage, although its accuracy must be improved before widespread use is practical. We also show UAV-based data PWD classifications are less accurate but comparable to those of ground-based data. We believe that these results can be used to improve preventative measures in the control of PWD.

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The Dark Septate Endophytes and Ectomycorrhizal Fungi Effect on Pinus tabulaeformis Carr. Seedling Growth and their Potential Effects to Pine Wilt Disease Resistance

Forests ◽

10.3390/f10020140 ◽

2019 ◽

Vol 10 (2) ◽

pp. 140 ◽

Cited By ~ 5

Author(s):

Honglong Chu ◽

Chuyan Wang ◽

Zhumei Li ◽

Haihua Wang ◽

Yuguo Xiao ◽

...

Keyword(s):

Ectomycorrhizal Fungi ◽

Growth Traits ◽

Pine Wilt Disease ◽

Wilt Disease ◽

Pinus Tabulaeformis ◽

Conifer Forest ◽

Cumulative Mortality ◽

Pine Wilt ◽

Pinus Tabulaeformis Carr ◽

The Relationship

Pine wilt disease (PWD), a worldwide threat to pine forests, has caused tremendous damage to conifer forest in the world. However, little research has been conducted on the relationship between symbiosis functions of root associated fungi and pine wilt disease. In this study, we assessed the influence of seven ectomycorrhizal fungi (ECMF) and five dark septate endophytic fungi (DSE) on the growth traits and root morphology as well as the correlation of these parameters to the cumulative mortality and the morbidity rates in Pinus tabulaeformis Carr.showed the lowest cumulative mortality rates. We propose that the ECMF/DSE symbiosis enhanced the resistance of pine wilt disease via mitigation the dysfunction of water caused by PWN infection. Our research provided evidence that inoculation of ECMF/DSE could be a potential way for pine wilt disease prevention. To find highly efficient fungi for pine wilt disease management, more ECMF and DSE species should be tested.

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Effects of pine wilt disease invasion on soil properties and Masson pine forest communities in the Three Gorges reservoir region, China

Ecology and Evolution ◽

10.1002/ece3.1326 ◽

2015 ◽

Vol 5 (8) ◽

pp. 1702-1716 ◽

Cited By ~ 19

Author(s):

Ruihe Gao ◽

Juan Shi ◽

Ruifen Huang ◽

Zhuang Wang ◽

Youqing Luo

Keyword(s):

Soil Properties ◽

Three Gorges Reservoir ◽

Pine Wilt Disease ◽

Wilt Disease ◽

Three Gorges ◽

Forest Communities ◽

Masson Pine ◽

The Three Gorges ◽

Pine Wilt ◽

Masson Pine Forest

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Insights into the Role of Fungi in Pine Wilt Disease

Journal of Fungi ◽

10.3390/jof7090780 ◽

2021 ◽

Vol 7 (9) ◽

pp. 780

Author(s):

Cláudia S. L. Vicente ◽

Miguel Soares ◽

Jorge M. S. Faria ◽

Ana P. Ramos ◽

Maria L. Inácio

Keyword(s):

Complex Disease ◽

Pine Wilt Disease ◽

Wilt Disease ◽

Host Tree ◽

Fungal Communities ◽

Insect Vector ◽

Pinewood Nematode ◽

Management Actions ◽

Pine Wilt ◽

Pinus Spp

Pine wilt disease (PWD) is a complex disease that severely affects the biodiversity and economy of Eurasian coniferous forests. Three factors are described as the main elements of the disease: the pinewood nematode (PWN) Bursaphelenchus xylophilus, the insect-vector Monochamus spp., and the host tree, mainly Pinus spp. Nonetheless, other microbial interactors have also been considered. The study of mycoflora in PWD dates back the late seventies. Culturomic studies have revealed diverse fungal communities associated with all PWD key players, composed frequently of saprophytic fungi (i.e., Aspergillus, Fusarium, Trichoderma) but also of necrotrophic pathogens associated with bark beetles, such as ophiostomatoid or blue-stain fungi. In particular, the ophiostomatoid fungi often recovered from wilted pine trees or insect pupal chambers/tunnels, are considered crucial for nematode multiplication and distribution in the host tree. Naturally occurring mycoflora, reported as possible biocontrol agents of the nematode, are also discussed in this review. This review discloses the contrasting effects of fungal communities in PWD and highlights promising fungal species as sources of PWD biocontrol in the framework of sustainable pest management actions.

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Relationship between soil properties and incidence of pine wilt disease at stand level

Landscape and Ecological Engineering ◽

10.1007/s11355-009-0087-2 ◽

2009 ◽

Vol 6 (1) ◽

pp. 119-124 ◽

Cited By ~ 12

Author(s):

Choonsig Kim ◽

Kyung-Soo Jang ◽

Joon-Bum Kim ◽

Jae-Kyung Byun ◽

Choong-Hwa Lee ◽

...

Keyword(s):

Soil Properties ◽

Pine Wilt Disease ◽

Wilt Disease ◽

Pine Wilt

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Effects of cavitation on the development of pine wilt disease caused by Bursaphelenchus xylophilus.

Japanese Journal of Phytopathology ◽

10.3186/jjphytopath.54.606 ◽

1988 ◽

Vol 54 (5) ◽

pp. 606-615 ◽

Cited By ~ 34

Author(s):

Keiko KURODA ◽

Toshihiro YAMADA ◽

Kazuhiko MINEO ◽

Hirotada TAMURA

Keyword(s):

Pine Wilt Disease ◽

Bursaphelenchus Xylophilus ◽

Wilt Disease ◽

Pine Wilt

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Dynamical aspects of pine wilt disease and control measures

Chaos Solitons & Fractals ◽

10.1016/j.chaos.2021.110764 ◽

2021 ◽

Vol 145 ◽

pp. 110764

Author(s):

Takasar Hussain ◽

Adnan Aslam ◽

Muhammad Ozair ◽

Fatima Tasneem ◽

J.F. Gómez-Aguilar

Keyword(s):

Pine Wilt Disease ◽

Wilt Disease ◽

Control Measures ◽

Pine Wilt ◽

And Control

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Spatiotemporal Pattern of Pine Wilt Disease in the Yangtze River Basin

Forests ◽

10.3390/f12060731 ◽

2021 ◽

Vol 12 (6) ◽

pp. 731

Author(s):

Zhuoqing Hao ◽

Jixia Huang ◽

Yantao Zhou ◽

Guofei Fang

Keyword(s):

River Basin ◽

Yangtze River ◽

Yangtze River Basin ◽

Pine Wilt Disease ◽

Wilt Disease ◽

Spatiotemporal Pattern ◽

Pinewood Nematode ◽

The Yangtze River ◽

Pine Wilt ◽

The Yangtze River Basin

The Yangtze River Basin is among the river basins with the strongest strategic support and developmental power in China. As an invasive species, the pinewood nematode (PWN) Bursaphelenchus xylophilus has introduced a serious obstacle to the high-quality development of the economic and ecological synchronization of the Yangtze River Basin. This study analyses the occurrence and spread of pine wilt disease (PWD) with the aim of effectively managing and controlling the spread of PWD in the Yangtze River Basin. In this study, statistical data of PWD-affected areas in the Yangtze River Basin are used to analyse the occurrence and spread of PWD in the study area using spatiotemporal visualization analysis and spatiotemporal scanning statistics technology. From 2000 to 2018, PWD in the study area showed an “increasing-decreasing-increasing” trend, and PWD increased explosively in 2018. The spatial spread of PWD showed a “jumping propagation-multi-point outbreak-point to surface spread” pattern, moving west along the river. Important clusters were concentrated in the Jiangsu-Zhejiang area from 2000 to 2015, forming a cluster including Jiangsu and Zhejiang. Then, from 2015–2018, important clusters were concentrated in Chongqing. According to the spatiotemporal scanning results, PWD showed high aggregation in the four regions of Zhejiang, Chongqing, Hubei, and Jiangxi from 2000 to 2018. In the future, management systems for the prevention and treatment of PWD, including ecological restoration programs, will require more attention.

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