范振彥
研究助理
謝孟珊
研究助理
盧芃君
碩士生
黃紹綺
碩士生
郭浩宇
碩士生
鄭凱文
碩士生
Year | Article |
---|---|
2018 |
A species-specific PCR assay for the newly observed root lesion nematode, Pratylenchus vulnus, in Taiwan ICPP 2018 |
2018 |
The plant parasitic nematodes and bacterial community in strawberry farms ISME17 |
2017 |
The possibility of controlling nematode with plasma-activated water The 7th international conference of clinical plant science. |
2017 |
Cross examination of plant parasitic nematode population and soil microbiome in Taiwan farms 3rd International Symposium on Nematodes as Environmental Bioindicators |
2017 |
A loop-mediated isothermal amplification method for the rapid detection of Aphelenchoides besseyi on rice 3rd International Symposium on Nematodes as Environmental Bioindicators |
2017 |
Development of a sequence-specific PCR assay for burrowing nematode (Radopholus similis) detection. 2017 APS Annual Meeting |
2017 |
Development of rapid detection of Aphelenchoides spp. in rice and fern. The 7th international conference of clinical plant science. |
2016 |
The Influence of the endosphere microbiome on Pierce’s disease development in grapevine. 2016 IS-MPMI XVII Congress |
2016 |
The Influence of the Endophytic Grapevine Microbiome on Pierce’s Disease Development Plant & Animal Genome Conference XXIV |
2016 |
Nematode population associating with ambrosia beetles in Taiwan 2016 XXV International Congress of Entomology |
2015 |
Microbiome study of potato taste defect in coffee beans from Rwanda. American Phytopathologucal Society annual meeting. |
2015 |
Nematode and the associated biological control applications. 植保會刊 |
2014 |
Assessment of soils for the presence of the nematophagous fungus Dactylella oviparasitica by a PCR-based strategy Journal of Nematology vol.46,no.2,page.257-258 |
2014 |
Biological control of Pierce's Disease: Identification of the endophytic mycobiota inhabiting diseased and symptomless grapevines Phytopathology vol. 104 ,no.11,page.133 |
2011 |
Fungi and oomycetes associated with a peach replant problem Phytopathology vol.101,no.6,page.S197 |
2010 |
Population dynamics of Dactylella oviparasitica in a Heterodera schachtii suppressive soil Phytopathology vol.100,no.6,page.S141 |
2010 |
Identification of a Meloidogyne incognita-suppressive soil and its potentially causal agent Journal of Nematology vol.42 ,no.3,page.252 |
Year | Article |
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2015 |
Population Dynamics of Dactylella oviparasitica and Heterodera schachtii. 2015年海峽兩岸植物病裡學術研討會 |
2012 |
Investigations into Peach Replant Disease and Nematophagous Fungi |
線蟲為地表上數量最多的動物。腐生性的線蟲族群於生態中扮演重要元素循環及環境指標的角色。動物寄生性線蟲得以寄生人及其他動物成為衛生組織所擔憂的寄生蟲。除此之外,更有超過4000種的線蟲與植物密切相關。具有植物寄生性的,不僅嚴重破壞森林景觀, 且每年造成全球上千億元的高額作物損失,為農林業所必須面臨的棘手問題。
於探討農林場域中植物病蟲害問題之時,檢視者需審慎考慮環境、寄主、病原/害蟲、時間等多重因子間之交互影響。在微生物生態學中,透過對各環境場域中微生物群相的研究,即能對微生物個體、族群於相關植物或其他生物上所造成之影響有所了解,最終方能將其相關資訊恰當運用農業林業之經營管理策略開發。
基於對線蟲與農林業的熱情,線蟲與微生物生態學實驗室成立於2015年,致力於探索線蟲寄生行為、線蟲-植物-微生物交互作用、微生物群相(microbiome)、開發偵測與防治技術。線蟲與微生物線蟲實驗室裡,目前有多位熱衷且享受探索線蟲、微生物群相與環境微生物群相微妙世界的重要成員。
自本實驗室畢業之碩士及論文主題: