地球科学进展 ›› 2016, Vol. 31 ›› Issue (7): 682 -688. doi: 10.11867/j.issn.1001-8166.2016.07.0682.

所属专题: 地球系统科学大会纪念专刊

上一篇    下一篇

陆地生态系统与地球环境的协同演化
周浙昆 1, 周忠和 2( ), 王怿 3   
  1. 1. 中国科学院西双版纳热带植物园,云南 西双版纳 666303
    2.中国科学院古脊椎动物与古人类研究所,北京 100044
    3.中国科学院南京地质古生物研究所,江苏 南京 210008
  • 收稿日期:2016-07-05 修回日期:2016-07-08 出版日期:2016-07-20
  • 基金资助:
    国家重点基础研究计划项目“四亿年以来中国陆地生物群演变及其与环境的关系”(编号:2012CB821900)资助

Coevolution between Terrestrial Ecosystem and Earth Environment

Zhekun Zhou 1, Zhonghe Zhou 2( ), Yi Wang 3   

  1. 1.Xishuangbanna Tropical Botanical Garden, Chinese Academy of Sciences, Xishuangbanna 666303,China
    2.Institute of Vertebrate Paleontology and Paleoanthropology, Chinese Academy of Sciences, Beijing 100044,China
    3.Nanjing Institute of Geology and Palaeontology, Chinese Academy of Sciences, Nanjing 210008,China
  • Received:2016-07-05 Revised:2016-07-08 Online:2016-07-20 Published:2016-07-10
  • Supported by:
    Project supported by the National Key Basic Research Project “Coevolution between terrestrial biota and environmental of China since 400 Ma”(No.2012CB821900)

陆地生态系统与地球环境协调演变是地球科学和生命科学研究的热点和重点,从志留纪有颌类的演化,新疆泥盆纪最早森林的出现,白垩纪缅甸琥珀中昆虫的多样性,始新世—渐新世转换期灵长类的演变以及碳同位素、硫同位素、 四醚膜类脂物(GDGTs)等地球化学,甘肃临夏盆地的早更新世龙担动物群及青藏高原及其邻区所特有的裂腹鱼类,伍氏献文鱼全身粗壮的骨骼与柴达木盆地干旱的相关性研究,亚洲季风对生物多样性影响,西藏芒康新生代植物群,沉积环境对化石保存的影响,利用古地磁,哺乳动物等手段构建高精度的地层系列等多项研究报道了这一领域的最新研究进展。

Coevolution between terrestrial ecosystem and Earth environment is a hot research topic in both biology and geology. Last progresses in these field are reported from following research subjects: evolution of jawed vertebrates(gnathostomata) from Silurian; occurrence of earliest forests from Devonian of Xinjiang; biodiversity of insects in amber from Cretaceous of Myanmar; Evolution of primates and geochemistry studies from Eocene/Oligocene; studies of Longdan fauna from Lingxia basin, Gansu Province of earlier Pleistocene and endemic cloven-breast fishes from Pliocene Tibet; the correlations thick-boned fish,Hsianwenia wui, and the aridification of the Qaidam Basin; monsoon climate and its impact on biodiversity; study on the flora from Mankang, Tibet of Miocene and its palaeoclimate; depositional environment and its impact on the preservation of fossils; contraction of high resolution Stratigraphic series by using data of paleomagnetism and mammal fossils.

中图分类号: 

[1] Zhu Min.The pattern and background of the ancient geography and environment on rising of Jawed vertebrates[C]//Abstract of the 4th Conference on Earth System Science. Shanghai, 2016.
[朱敏. 有颌脊椎动物崛起的格局与古地理、古环境背景[C]//第四届系统科学大会摘要集. 上海,2016.]
[2] Xu Honghe, Wang Yi.A study on early middle-late devonian forest in Xinjiang[C]//Abstract of the 4th Conference on Earth System Science. Shanghai, 2016.
[徐洪河,王怿.新疆中—晚泥盆世早期森林研究[C]//.第四届系统科学大会摘要集.上海,2016.]
[3] Wang Bo, Zhang Qingqing, Shi Gongle.Myanmar amber biota: A world of Cretaceous tropical rain forests[C]//Abstract of the 4th Conference on Earth System Science. Shanghai, 2016.
[王博,张青青,史恭乐. 缅甸琥珀生物群:一个白垩纪热带雨林世界[C]//第四届系统科学大会摘要集.上海,2016.]
[4] Ni Xijun, Li Qiang, Li Lüzhou, et al.Environmental upheaval is “evolution filters” for primates in Eocene-Oligocene[C]//Abstract of the 4th Conference on Earth System Science. Shanghai, 2016.
[倪喜军,李强,李绿洲,等. 始新世—渐新世环境剧变是灵长类的“演化滤器”[C]//第四届系统科学大会摘要集.上海,2016.]
[5] Wang Xu, Chen Zuoling, Ding Zhongli.A study on environmental changes in Paleocene-Eocene Thermal Maximum (PETM) period, China Nanyang Basin[C]//Abstract of the 4th Conference on Earth System Science. Shanghai, 2016.
[王旭,陈祚伶,丁仲礼. 中国南阳盆地古新世—始新世极热事件(PETM)时期环境变化研究[C]//第四届系统科学大会摘要集.上海,2016.]
[6] Deng Tao, Wang Xiaoming, Li Qiang, et al.The substitution of Pliocene mammal in Qinghai-Tibet Plateau to Quaternar mammal fauna in North China[C]//Abstract of the 4th Conference on Earth System Science. Shanghai, 2016.
[邓涛,王晓鸣,李强, 等. 青藏高原上新世哺乳动物在华北第四纪哺乳动物群中的取代作用[C]//第四届系统科学大会摘要集.上海,2016.]
[7] Wu Feixiang.The role of Cenozoic fish fossils on the reconstruction of the ancient height in Qinghai-Tibetan Plateau[C]//Abstract of the 4th Conference on Earth System Science. Shanghai, 2016.
[吴飞翔. 新生代鱼化石在青藏高原古高度重建中的作用[C]//第四届系统科学大会摘要集.上海, 2016.]
[8] Zhang Miman.Bones thicker of Hsianwenia wui witnessed a drought in the Qaidam Basin[C]//Abstract of the 4th Conference on Earth System Science. Shanghai, 2016.
[张弥曼. 全身骨头变粗的伍氏献文鱼 (Hsianwenia wui)见证了柴达木盆地的干旱化[C]//第四届系统科学大会摘要集.上海,2016.]
[9] Zhou Zhekun, Su Tao, Huang Yongjiang.The evolution of monsoon climate and its impact on biodiversity[C]//Abstract of the 4th Conference on Earth System Science. Shanghai, 2016.
[周浙昆,苏涛,黄永江. 季风气候的演变及其对生物多样性的影响[C]//第四届系统科学大会摘要集.上海,2016.]
[10] Su Tao, Xu He, Li Shihu, et al.The Miocene paleo elevation and climate in the eastern part of Tibet: Evidence from fossil of Markham flora[C]//Abstract of the 4th Conference on Earth System Science. Shanghai, 2016.
[苏涛,许贺,李仕虎, 等. 西藏东部中新世古海拔与古气候:基于芒康植物群的化石证据[C]//第四届系统科学大会摘要集.上海,2016.]
[11] Jiang Baoyu.Fossil specific burial mechanisms in Volcanogenic lakes[C]//Abstract of the 4th Conference on Earth System Science. Shanghai, 2016.
[姜宝玉. 火山成因湖泊中的化石特异埋藏机制[C]//第四届系统科学大会摘要集.上海,2016.]
[12] Pan Yanhong, Franz Fürsich.Study on the burial of riching fish layer of limestone Solnhofen[C]//Abstract of the 4th Conference on Earth System Science. Shanghai, 2016.
[泮燕红, Franz Fürsich.索伦霍芬灰岩中鱼富集层的埋葬学研究[C]//第四届系统科学大会摘要集.上海,2016.]
[13] Deng Chenglong, Li Shihu, Zhu Rixiang.Magnetic stratigraphic framework and sedimentary environment evolution of Late Neogene sedimentary basin in Yunnan[C]//Abstract of the 4th Conference on Earth System Science. Shanghai, 2016.
[邓成龙,李仕虎,朱日祥. 云南晚新近纪沉积盆地磁性地层年代框架及沉积环境演变[C]//第四届系统科学大会摘要集.上海,2016.]
[14] Zhang Peng, Ao Hong, Dekkers M J, et al.Study on magnetic chronology of Late Miocene mammal fauna and its significance for mammalian migration and Paleoenvironmental[C]//Abstract of the 4th Conference on Earth System Science. Shanghai, 2016.
[张鹏, 敖红, Dekkers M J,等. 青藏高原东北缘晚中新世哺乳动物群磁性年代学研究及对哺乳动物迁移和古环境意义[C]//第四届系统科学大会摘要集.上海,2016.]
[15] Wang Shiqi, Deng Tao, Ye Jie.The Neogene age of proboscidean biochron: An example of high-resolution terrestrial biostratigraphy in China[C]//Abstract of the 4th Conference on Earth System Science. Shanghai, 2016.
[王世骐,邓涛,叶捷. 中国新近纪长鼻类生物年代—高分辨率陆相生物地层学的范例[C]//第四届系统科学大会摘要集.上海,2016.]
[1] 潘文杰, 杨孝民, 张晓东, 李自民, 杨石磊, 吴云涛, 郝倩, 宋照亮. 中国陆地生态系统植硅体碳汇研究进展[J]. 地球科学进展, 2017, 32(8): 859-866.
[2] 王训明, 周娜, 郎丽丽, 花婷, 焦琳琳, 马文勇. 风沙活动对陆地生态系统影响研究进展[J]. 地球科学进展, 2015, 30(6): 627-635.
[3] 邓涛, 王晓鸣, 王世骐, 李强, 侯素宽. 中国新近纪哺乳动物群的演化与青藏高原隆升的关系[J]. 地球科学进展, 2015, 30(4): 407-415.
[4] 陆志翔, 肖洪浪, 邹松兵, 任娟, 张志强. 黑河流域近两千年人—水—生态演变研究进展[J]. 地球科学进展, 2015, 30(3): 396-406.
[5] 何洪林,张黎, 黎建辉, 周园春,任小丽,于贵瑞. 中国陆地生态系统碳收支集成研究的e-Science 系统构建[J]. 地球科学进展, 2012, 27(2): 246-254.
[6] 鱼腾飞,冯起,司建华,席海洋,陈丽娟. 遥感结合地面观测估算陆地生态系统蒸散发研究综述[J]. 地球科学进展, 2011, 26(12): 1260-1268.
[7] 彭琴,董云社,齐玉春. 氮输入对陆地生态系统碳循环关键过程的影响[J]. 地球科学进展, 2008, 23(8): 874-883.
[8] 周小刚,罗云峰,吕克解. NSF用于地球环境观测系统的设施[J]. 地球科学进展, 2007, 22(4): 428-432.
[9] 金亚秋. 复杂自然环境时空定量信息的获取与融合处理的理论与应用[J]. 地球科学进展, 2007, 22(2): 111-125.
[10] 牛栋,李正泉,于贵瑞. 陆地生态系统与全球变化的联网观测研究进展[J]. 地球科学进展, 2006, 21(11): 1199-1206.
[11] 傅伯杰;牛栋;赵士洞. 全球变化与陆地生态系统研究:回顾与展望[J]. 地球科学进展, 2005, 20(5): 556-560.
[12] 何勇;董文杰;季劲均;丹利. 基于AVIM的中国陆地生态系统净初级生产力模拟[J]. 地球科学进展, 2005, 20(3): 345-349.
[13] 于贵瑞;王秋凤;于振良. 陆地生态系统水—碳耦合循环与过程管理研究[J]. 地球科学进展, 2004, 19(5): 831-839.
[14] 周广胜;周莉;袁文平. 地球环境与生命过程[J]. 地球科学进展, 2004, 19(5): 706-711.
[15] 李晓兵,陈云浩,张云霞,范一大,周涛,谢锋. 气候变化对中国北方荒漠草原植被的影响[J]. 地球科学进展, 2002, 17(2): 254-261.
阅读次数
全文


摘要