陳思翀,女,中國科學院武漢植物園研究員。
基本介紹
- 中文名:陳思翀
- 國籍:中國
- 性別:女
人物經歷,研究領域,社會任職,獲獎及榮譽,代表論著,
人物經歷
時間 | 任職單位 | 職務 |
2021~ | 中國科學院武漢植物園 | 研究員; |
2018~ | 英國皇家植物園邱園 | 研究員; |
2019~2019 | 德國雷根斯堡大學 | 訪問學者; |
2016~2018 | 以色列本古里安大學 | 博士後; |
2012~2016 | 澳大利亞新南威爾斯大學 | 博士; |
2009~2012 | 中國科學院西雙版納熱帶植物園 | 碩士; |
2008~2009 | 日本大阪大學 | 訪問學生; |
2005~2009 | 武漢大學 | 學士; |
研究領域
巨觀生態學,生物地理,巨觀進化,種子生態學,物種互作
社會任職
《Oikos》編委
《Integrative Zoology》青年編委
《Frontiers in Plant Science》“種子功能生態學”特輯客座編輯
《植物科學學報》編委
獲獎及榮譽
國家優秀自費留學生獎學金
代表論著
- Chen S-C, Wang B & Moles AT (2021). Exposure time is an important variable in quantifying post-dispersal seed removal.Ecology Letters 24(7): 1522–1525.
- Chen S-C, Poschlod P, Antonelli A, Liu U & Dickie JB (2020). Trade-off between seed dispersal in space and time. Ecology Letters 23(11): 1635–1642.
- Chen S-C, Wu L-M, Wang B & Dickie JB (2020). Macroevolutionary patterns in seed component mass and different evolutionary trajectories across seed desiccation responses. New Phytologist 228(2): 770–777.
- Chen S-C, Dener E, Altman A, Chen F &Giladi I (2020). Effect of habitat fragmentation on seed dispersal ability of a wind-dispersed annual in an agroecosystem. Agriculture, Ecosystems & Environment 304: 107138.
- Moles AT, Laffan SW, Keighery M, Dalrymple RL, Tindall ML &Chen S-C(2020). A hairy situation: Plant species in warm, sunny places are more likely to have pubescent leaves. Journal of Biogeography 47(9): 1934–1944.
- Chen S-C& Giladi I (2020). Variation in morphological traits affects dispersal and seedling emergence in dispersive diaspores of Geropogon hybridus. American Journal of Botany 107(3): 436–444.
- Chen S-C, Tamme R, Thomson FJ & Moles AT* (2019). Seeds tend to disperse further in the tropics. Ecology Letters 22(6): 954–961.
- Chen S-C, Pahlevani AH, Malíková L, Riina R, Thomson FJ & Giladi I (2019). Trade-off or coordination? Correlations between ballochorous and myrmecochorous phases of diplochory. Functional Ecology 33(8): 1469–1479.
- Wu L-M#, Chen S-C& Wang B (2019). An allometry between seed kernel and seed coat shows greater investment in physical defense in small seeds. American Journal of Botany 106(3): 371–376.
- Chen S-C& Giladi I (2018). Allometric relationships between masses of seed functional components. Perspectives in Plant Ecology, Evolution and Systematics 35: 1–7.
- Chen S-C& Moles AT (2018). Factors shaping large-scale gradients in seed physical defence: Seeds are not better defended towards the tropics. Global Ecology and Biogeography 27(4): 417–428.
- Chen S-C, Hemmings FA, Chen F & Moles AT (2017). Plants do not suffer greater losses to seed predation towards the tropics. Global Ecology and Biogeography 26(11): 1283–1291.
- Chen S-C, Cornwell WK, Zhang H-X & Moles AT (2017). Plants show more flesh in the tropics: Variation in fruit type along latitudinal and climatic gradients. Ecography 40(4): 531–538.
- Chen S-C& Moles AT (2015). A mammoth mouthful? A test of the idea that larger animals ingest larger seeds. Global Ecology and Biogeography 24(11): 1269–1280.
- Chen S-C, Cannon CH, Kua C-S, Liu J-J & Galbraith DW (2014). Genome size variation in the Fagaceae and its implications for trees. Tree Genetics & Genomes 10(4): 977–988.
