科研成果
(1) ZJ Jiang, X Long, WQ Qi, et al. Connectivity in China’s marine protected areas. Science, 2024, 383(6682): 489-490.
(2) ZJ Jiang#, JL He#, Y Fang, et al. Effects of herbivore on seagrass, epiphyte and sediment carbon sequestration in tropical seagrass bed. Marine Environmental Research, 2023, 190, 106122.
(3) LJ Cui, ZJ Jiang*, XP Huang*, et al. Identification of food sources in tropical seagrass bed food web using triple stable isotopes and fatty acid signatures. Frontiers in Marine Science, 2023, 10, 1093181.
(4) ZJ Jiang#, LL Li#, Y Fang, et al. Eutrophication reduced the release of dissolved organic carbon from tropical seagrass roots through exudation and decomposition. Marine Environmental Research, 2022, 179: 105703.
(5) Y Fang, ZJ Jiang*, JZ Lin, et al. Nitrate threshold of tropical seagrass susceptibility to herbivory. Ecological Indicators, 2023, 146: 109911.
(6) ZJ Jiang, SL Liu, LJ Cui, et al. Sand supplementation favors tropical seagrass Thalassia hemprichii in eutrophic bay: implications for seagrass restoration and management. BMC Plant Biology, 2022, 22: 296.
(7) LL Li, ZJ Jiang*, YC Wu, et al. Interspecific differences in root exudation for three tropical seagrasses and sediment pore-water dissolved ogranic carbon beneath them. Marine Pollution Bulletin, 2021, 173: 113059.
(8) ZJ Jiang#, SL Liu#, JP Zhang, et al. Eutrophication indirectly reduced carbon sequestration in a tropical seagrass bed. Plant and Soil, 2018, 426: 135-152.
(9) ZJ Jiang, CY Zhao, S Yu, et al. Contrasting root length, nutrient content and carbon sequestration of seagrass growing in offshore carbonate and onshore terrigenous sediments in the South China Sea. Science of the Total Environment, 2019, 662: 151-159.
(10) ZL Lian, ZJ Jiang*, XP Huang*, et al. Labile and recalcitrant sediment organic carbon pools in the Pearl River Estuary, southern China. Science of the Total Environment, 2018, 640-641: 1302-1311.
(11) ZJ Jiang#, M Kumar#*, MP Padula, et al. Development of an efficient protein extraction method compatible with LC-MS/MS for proteome mapping in two Australian seagrasses Zostera muelleri and Posidonia australis. Frontiers in Plant Science, 2017, 8: 1416.
(12) ZJ Jiang#, DL Huang#, Y Fang, et al. Home for marine species: seagrass leaves as vital spawning grounds and food source. Frontiers in Marine Science, 2020, 7: 194.
(13) Y Fang, ZJ Jiang*, CY Zhao, et al. Efficient heat dissipation and cyclic electron flow confer daily air exposure tolerance in the intertidal seagrass Halophila beccarii Asch. Frontiers in Plant Science, 2020, 11: 571627.
(14) ZJ Jiang, LJ Cui, SL Liu, et al. Historical changes in seagrass beds in a rapidly urbanizing area of Guangdong Province: Implications for conservation and management. Global Ecology and Conservation, 2020, 22: e01035.
(15) 林基桢, 江志坚*, 李玲兰, 等. 营养盐对泰来草光合无机碳利用方式的影响研究. 科学通报, 2023, 68 (6): 684-694.
(16) 何佳潞, 江志坚*, 崔黎军, 等. 热带海草床重要植食者栖息地选择的关键影响因素. 中国科学:生命科学, 2021, 51:1582-1592.