宋新章,男,教授,博士生导师,国家杰出青年科学基金获得者,中国林业青年科技奖获得者,浙江省“万人计划”科技创新领军人才,浙江省高校创新领军人才,浙江省高校高水平创新团队带头人,浙江省高校中青年学科带头人,浙江省农业科技先进工作者,省部共建亚热带森林培育国家重点实验室课题组长。主要从事全球变化背景下亚热带森林生态系统的碳氮循环和森林碳中和功能研究工作,主持国家杰出青年科学基金1项,国家自然科学基金重点项目1项,面上和青年项目4项,国家重点研发计划专题1项。发表论文60余篇,其中以第一或(兼)通信作者在《Science Advances》、《Agricultural and Forest Meteorology》、《Soil Biology & Biochemistry》、《Geoderma》、《Plant and Soil》等SCI期刊发表论文40余篇(ESI高被引论文1篇,中科院一区9篇),出版专著1部。主持获得国家林草局梁希林业科学技术奖二等奖2项,参与获得国家科学技术进步二等奖1项。中国林学会森林生态分会常务理事、中国林学会竹子分会委员、中国自然资源学会森林资源专委会常委、浙江省生态学会森林生态专委会主任、浙江省林学会森林生态专委会副主任。中科院一区SCI期刊《Forest Ecosystems》、中国工程院院刊《Frontiers of Agricultural Science and Engineering》、《Applied Sciences》、《浙江农林大学学报》、《陆地生态系统与保护学报》等期刊编委,《New Phytologist》、《Agricultural and Forest Meteorology》、《Biology and Fertility of Soils》、《Science of the Total Environment》、《Land Degradation & Development》、《Forest Ecology and Management》、《Biogeoscience》、《Atmospheric Environment》、《林业科学》、《应用生态学报》、《植物生态学报》、《生态学报》、《环境科学》等知名学术期刊审稿专家。
研究领域
竹林生态、碳氮磷生物地球化学循环、森林碳中和、土壤生态学
科研项目
(1)竹林生产力与全球变化。国家杰出青年科学基金项目(32125027) (2022-2026) 400万
(2)毛竹快速生长和退笋发生的碳氮供应及机理研究。国家自然科学基金重点项目(31930075) (2020-2024) 297万
(3)施加生物质炭对毛竹林温室气体排放和固碳能力的影响。国家自然科学基金面上项目(31470529)(2015-2018) 93万
(4)氮沉降对毛竹林GHGs排放和净碳汇效应的影响及其机制研究。国家自然科学基金面上项目(31270517)(2013-2016) 85万
(5)UV-B辐射增强和氮沉降增加的复合作用对森林凋落物分解的影响及其微生物学机制。国家自然科学基金面上项目(31070440)(2011-2013) 38万
(6)UV-B辐射变化对中国亚热带主要树种凋落物分解影响的研究。国家自然科学青年基金(30800152)(2009-2011) 19万
(7)低磷胁迫对杉木人工林生产力的影响及其对氮沉降的响应。国家重点研发计划(2016YFD060020103)(2016-2020) 80万
(8)氮沉降和UV-B辐射复合作用对森林凋落物分解的影响及其机理。浙江省自然科学基金(Y5090007)(2010-2011) 10万
(9)毛竹林土壤氮循环15N示踪监测技术引进。国家林业局“948”项目子课题(2013-4-55) 15万
(10)浙江省“万人计划”科技创新领军人才项目(2019-2021),80万,
(11)浙江农林大学青年拔尖人才项目(2015-2019),80万,
近年发表的一作或通讯作者论文(*表示通讯作者)
1. Song X*, Peng C, Ciais P, Li Q, Xiang W, Xiao W, Zhou G, Deng L. Nitrogen addition increased CO2 uptake more than non-CO2 greenhouse gases emissions in a Moso bamboo forest. Science Advances, 2020, 6: eaaw5790.
2. Zhang J, Li Q, Lv J, Peng C, Gu Z, Qi L, Song X, Song X*. Management scheme influence and nitrogen addition effects on soil CO2, CH4, and N2O fluxes in a Moso bamboo plantation. Forest Ecosystems, 2021, 8: 6.
3. Li Q, Lv J, Peng C, Xiang W, Xiao W, Song X*. Nitrogen -addition accelerates phosphorus cycling and changes phosphorus use strategy in a subtropical Moso bamboo forest. Environmental Research Letters, 2021, 16: 024023.
4. Liu M, Shen Y, Li Q, Xiao W, Song X*. Arbuscular mycorrhizal fungal colonization and soil pH induced by nitrogen and phosphorus additions affects leaf C:N:P stoichiometry in Chinese fir (Cunninghamia lanceolata) forests. Plant and Soil, 2021, 461: 421-440.
5. Gao J, Li Q, Zhang J, Cui K, Wu Z, Shi M and Song X*. Biochar Amendment Alters the Nutrient-Use Strategy of Moso Bamboo Under N Additions. Frontiers in Plant Science, 2021, 12: 667964.
6. Li Q, Song X*, Chang SX, Peng C, Xiao W, Zhang J, Xiang W, Li Y, Wang W. Nitrogen depositions increase soil respiration and decrease temperature sensitivity in a Moso bamboo forest. Agricultural and Forest Meteorology, 2019, 268: 48-54.
7. Zhang J, Li Q, Wu J*, Song X*. Effects of nitrogen deposition and biochar amendment on soil respiration in a Torreya grandis orchard. Geoderma, 2019, 355: 113918.
8. Sun H, Li Q, Lei Z, Zhang J, Song X, Song X*. Ecological stoichiometry of nitrogen and phosphorus in Moso bamboo (Phyllostachys edulis) during the explosive growth period of new emergent shoots. Journal of Plant Research, 2019, 132: 107-115.
9. Peng C, Li Q, Zhang Z, Wu Z, Song X, Zhou G, Song X*. Biochar amendment changes the effects of nitrogen deposition on soil enzyme activities in a Moso bamboo plantation. Journal of Forest Research, 2019, 24: 275-284.
10. Li Q, Lei Z, Song X*, Zhang Z, Ying Y, Peng C. Biochar amendment decreases soil microbial biomass and increases bacterial diversity in Moso bamboo (Phyllostachys edulis) plantations under simulated nitrogen deposition. Environmental Research Letters, 2018, 13: 044029.
11. Lei Z, Li Q, Song X*, Wang W, Zhang Z, Peng C, Tian L. Biochar mitigates dissolved organic carbon loss but does not affect dissolved organic nitrogen leaching loss caused by nitrogen deposition in Moso bamboo plantations. Global Ecology and Conservation, 2018, 16: e00494.
12. Song X, Chen X, Zhou G, Jiang H*, Peng C*. Observed high and persistent carbon uptake by Moso bamboo forests and its response to environmental drivers. Agricultural and Forest Meteorology, 2017, 247: 467-475.
13. Song X*, Li Q, Gu H. Effect of nitrogen deposition and management practices on fine root decomposition in Moso bamboo plantations. Plant and Soil, 2017, 410: 207-215.
14. Zhang J, Lv J, Li Q, Ying Y, Peng C, Song X*. Effects of nitrogen deposition and management practices on leaf litterfall and N and P return in a Moso bamboo forest. Biogeochemistry, 2017, 134: 115-124.
15. Zhang R, Wu J, Li Q, Hänninen H, Peng C, Yao H, Song X*, Ying Y*. Nitrogen deposition enhances photosynthesis in Moso bamboo but increases susceptibility to other stress factors. Frontiers in Plant Science, 2017, 8:1975.
16. Song X, Kimberley MO, Zhou G, Wang H*. Soil carbon dynamics in successional and plantation forests in subtropical China. Journal of Soils and Sediments, 2017, 17: 2250-2256.
17. Song X*, Gu H, Wang M, Zhou G, Li Q. Management practices regulate the response of Moso bamboo foliar stoichiometry to nitrogen deposition. Scientific Reports, 2016, 6: 24107.
18. Song X*, Peng C*, Zhou G, Gu H, Li Q, Zhang C. Dynamic allocation and transfer of non-structural carbohydrates, a possible mechanism for the explosive growth of Moso bamboo (Phyllostachys heterocycla). Scientific Reports, 2016, 6: 25908.
19. Song X*, Pan G, Zhang C, Zhang L, Wang H. Effects of biochar application on fluxes of three biogenic greenhouse gases: a meta-analysis. Ecosystem Health and Sustainability, 2016, 2: e01202.
20. Li Q, Song X*, Gu H, Gao F. Nitrogen deposition and management practices increase soil microbial biomass carbon but decrease diversity in Moso bamboo plantations. Scientific Reports, 2016, 6: 28235.
21. Song X*, Zhou G, Gu H, Qi L. Management practices amplify the effects of N deposition on leaf litter decomposition of the Moso bamboo forest. Plant and Soil, 2015, 395: 391-400.
22. Song X*, Jiang H, Zhang Z, Zhou G, Zhang S, Peng C. Interactive effects of elevated UV-B radiation and N deposition on decomposition of Moso bamboo litter. Soil Biology & Biochemistry, 2014, 69: 11-16.
23. Song X*, Zhang H, Jiang H, Peng C. Combination of nitrogen deposition and ultraviolet-B radiation decreased litter decomposition in subtropical China. Plant and Soil, 2014, 380(1): 349-359.
24. Song X*, Peng C*, Zhao Z, Zhang Z, Guo B, Wang W, Jiang H, Zhu Q. Quantification of soil respiration in forest ecosystems across China. Atmospheric Environment, 2014, 94: 546-551.
25. Song X*, Peng C*, Zhou G, Jiang H, Wang W. Chinese Grain for Green Program led to highly increased soil organic carbon levels: A meta-analysis. Scientific Reports, 2014, 4: 4460.
26. Song X, Yuan H, Kimberley MO, Jiang H*, Zhou G, Wang H*. Soil CO2 flux dynamics in the two main plantation forest types in subtropical China. Science of the Total Environment, 2013, 444: 363-368.
27. Song X*, Peng C*, Zhou G, Jiang H, Wang W, Xiang W. Climate warming-induced upward shift of Moso bamboo population on Tianmu Mountain, China. Journal of Mountain Science, 2013, 10(3): 363-369.
28. Song X*, Jiang H*, Zhang H, et al. Elevated UV-B radiation did not affect decomposition rates of needles of two coniferous species in subtropical China. European Journal of Soil Biology, 2011, 47(6): 343-348.
29. Song X, Zhou G, Jiang H, Yu S, Fu J, Li W, Wang W, Ma Z, Peng C*. Carbon sequestration by Chinese bamboo forests, and their ecological benefits: assessment of potential, problems, and future challenges. Environmental Reviews, 2011, 19(1): 418-428.
30. 汪鹞雄, 李全, 沈益康, 杨强, 张君波, 王艳红, 宋新章*. 模拟氮沉降对杉木丛枝菌根真菌侵染率和球囊霉素的影响. 生态学报, 2021, 41(1): 194-201.
31. 姚钧能,吕建华,俞卫良,张君波,雷赵枫,李全,宋新章*. 氮沉降和经营强度对毛竹林凋落叶生态化学计量特征的影响. 应用生态学报, 2018, 29(2): 467-473.
32. 彭春菊, 李全, 顾鸿昊, 宋新章*. 模拟氮沉降及经营方式对毛竹林土壤酶活性的影响. 应用生态学报, 2017, 28(2): 423-429.
33. 杜莹, 鲍永新, 裘子炎, 吕茹冰, 宋超, 宋新章*. 模拟氮沉降对毛竹非结构性碳的影响. 林业科学, 2017, 53(7): 10-17.
34. 宋新章*, 卜涛, 张水奎, 等. UV-B辐射对青冈凋落叶化学组成和分解的影响. 环境科学, 2013, 34(6): 2355-2360.
35. 宋新章*, 张慧玲, 江洪, 等. UV-B辐射对亚热带森林凋落叶氮、磷元素释放的影响. 环境科学, 2012, 33(2), 545-550.
36. 宋新章*, 张慧玲, 江洪, 等. UV-B辐射对亚热带森林凋落叶分解的影响. 林业科学, 2012, 48(1): 13-17.
37. 宋新章*, 张慧玲, 江洪, 余树全, 张智婷. UV-B辐射对马尾松凋落叶分解和养分释放的影响. 生态学报, 2011, 31(8): 2106-2114.
38. 宋新章, 江洪, 余树全, 等. 中亚热带森林群落不同演替阶段优势种凋落物分解试验. 应用生态学报, 2009, 20(3): 537-542.
39.宋新章, 江洪, 马元丹, 等. 中国东部气候带凋落物分解特征:气候和基质质量的综合影响. 生态学报, 2009,29 (10): 5219-5226.
40. 宋新章, 江洪, 张慧玲, 等. 全球环境变化对森林凋落物分解的影响. 生态学报, 2008, 28(9): 4414-4423.
获奖
(1) 第九届梁希林业科学技术奖二等奖(毛竹林生态高效经营水肥管理关键技术研究及示范), 1/9, 国家林业局,2018年
(2) 第八届梁希林业科学技术奖二等奖(全球气候变化对亚热带典型林分凋落物分解及养分循环的影响), 1/6, 国家林业局,2017年
(3) 第十三届中国林业青年科技奖, 1/1, 国家林业局,2016年
(4)《生态学报》2008-2012年度优秀论文奖, 1/7, 2013年
(5)《应用生态学报》2012年度优秀论文奖, 1/7, 2012年
学术专著
1. 宋新章,江洪,马元丹,等. 亚热带森林凋落物分解及其对全球环境变化的响应. 科学出版社, 2018.
联系方式
联系地址:浙江农林大学林业与生物技术学院学7-105,浙江临安,311300
电子邮件:xzsong@126.com
