1.Rong Wang*; John A. Dearing*; C. Patrick Doncaster; Xiangdong Yang; Enlou Zhang; Peter G. Langdon; Hui Yang; Xuhui Dong; Zhujun Hu; Min Xu; Yanjie Zhao; Ji Shen; Network parameters quantify loss of assemblage structure in human-impacted lake ecosystems, Global Change Biology, 2019, 25(11): 3871-3882.
2.Rong Wang*, Zhujun Hu, Qian Wang, Min Xu, Wenxiu Zheng, Ke Zhang, Xiangdong Yang. Discrepancy in the responses of diatom diversity to indirect and direct human activities in lakes of the southeastern Tibetan Plateau, China. Anthropocene, 2020, 30: 100243
3.Rong Wang*; Min Xu; Hui Yang; Xiangdong Yang; Ke Zhang; Enlou Zhang; Ji Shen; Ordered diatom species loss along a total phosphorus gradient in eutrophic lakes of the lower Yangtze River basin, China , Science of the Total Environment, 2019, 650: 1688-1695.
4.Wang, R., J. A. Dearing*, P. G. Langdon, E. Zhang, X. Yang, V. Dakos & M. Scheffer (2012) Flickering gives early warning signals of a critical transition to a eutrophic lake state. Nature, 492(7429):419-422.
5.Wang, R., Yang, X., Langdon, P. G., & Zhang, E. (2011). Limnological responses to warming on the Xizang Plateau, Tibet, over the past 200 years. Journal of Paleolimnology, 45(2), 257-271.
6.Wenxiu Zheng, Enlou Zhang*, Rong Wang*, Peter Guy Langdon. Human impacts alter driver–response relationships in lakes of Southwest China. Limnology and Oceanography, 2022, 67: S390-402.
7.Rong Wang*, John Dearing, Peter Langdon. Critical Transitions in Lake Ecosystem State May Be Driven by Coupled Feedback Mechanisms: A Case Study from Lake Erhai, China. Water, 2022, 14, 85.
8.Min Xu; Rong Wang*; Xuhui Dong; Xiangdong Yang; A palaeolimnological perspective to understand regime-shift dynamics in two Yangtze-basin lakes, Biology Letters, 2019, 15.
9.Rong Wang, John Dearing *, Peter Langdon, Enlou Zhang, Xiangdong Yang, Vasilis Dakos & Martern Scheffer. Reply to Carstensen, J., Telford, RJ and Birks, HJB (2013) Diatom flickering prior to regime shift. Nature, 2013, 498, E12-E13.
10.Wenxiu Zheng, Rong Wang*, Enlou Zhang*, Hui Yang, Min Xu. Declining chironomid diversity in relation to human influences in southwest China. Anthropocene, 2021, 36: 100308.
11.Bo Qin, Xiangzhen Kong, Rong Wang*, Yanjie Zhao & Xiangdong Yang. Lake restoration time of Lake Taibai (China): a case study based on paleolimnology and ecosystem modeling. J Paleolimnol, 2021, https://doi.org/10.1007/s10933-020-00165-7 .
12.Wenxiu Zheng; Rong Wang*; Enlou Zhang*; Jie Chang; Complex relationship between the diversity and stability of chironomid assemblages in the recent sediments of two large alpine lakes in SW China , Science of the Total Environment, 2019, 684: 705-714.
13.Min Xu; Rong Wang*; Xiangdong Yang; Hao Yang*; Spatial distribution and ecological risk assessment of heavy metal pollution in surface sediments from shallow lakes in East China, Journal of Geochemical Exploration, 2020, 213.
14.Bing Song*, Rong Wang*, Qian Wang, Lingyang Kong, Zhujun, Hu, Wenxiu, Zheng, Xiangdong Yang, Pollen and diatom record long-term complex relationships between diversity and stability in a lake and nearby vegetation from Tingming Lake in Yunnan, SW China, Quaternary International, https://doi.org/10.1016/j. quaint.2020.10.013
15.Min Xu, Rong Wang*, Xiangdong Yang. Combining paleolimnological proxies to understand the long-term social-ecological interactions: A case study in the Erhai basin, Southwest China. Quaternary International, https://doi.org/10.1016/j.quaint.2021.03.040
16.Yun Li, Mengdie Geng, Jinlei Yu, Yingxun Du, Min Xu, Weizhen Zhang, Jianjun Wang, Haojie Su, Rong Wang?, Feizhou Chen?. Eutrophication decrease compositional dissimilarity in freshwater plankton communities. Science of the Total Environment, 2022, 821, 153434.
17.董一凡,鄭文秀,張晨雪,徐敏,王榮?,吳興華,李媛. 中國湖泊生態(tài)系統突變時(shí)空差異. 湖泊科學(xué),2021,33: 992-1003.
18.鄧文文, 王榮?, 劉正文, 鄭文秀, 張晨雪. 模型揭示的淺水湖泊穩態(tài)轉換影響因素分析. 地球科學(xué)進(jìn)展, 2021, 36: 83-94.
鄭佳楠, 徐敏, 鄭文秀, 朱可欣, 王榮?, 張恩樓. 富營(yíng)養化驅動(dòng)下西涼湖百年來(lái)生態(tài)系統演化軌跡. 環(huán)境科學(xué), 2022, 43: 2518-2526.
|