神农架大九湖泥炭湿地关键带监测进展

黄咸雨; 张志麒; 王红梅; 陈旭; 朱宗敏; 顾延生; 秦养民; 刘金铃; 汪迎春

doi:10.3799/dqkx.2017.081

Volume 42 Issue 6

Jun. 2017

Turn off MathJax

Article Contents

Article Navigation > Earth Science > 2017 > 42(6): 1026-1038

Huang Xianyu, Zhang Zhiqi, Wang Hongmei, Chen Xu, Zhu Zongmin, Gu Yansheng, Qin Yangmin, Liu Jinling, Wang Yingchun, 2017. Overview on Critical Zone Observatory at Dajiuhu Peatland, Shennongjia. Earth Science, 42(6): 1026-1038. doi: 10.3799/dqkx.2017.081

Citation:

Huang Xianyu, Zhang Zhiqi, Wang Hongmei, Chen Xu, Zhu Zongmin, Gu Yansheng, Qin Yangmin, Liu Jinling, Wang Yingchun, 2017. Overview on Critical Zone Observatory at Dajiuhu Peatland, Shennongjia. Earth Science, 42(6): 1026-1038. doi: 10.3799/dqkx.2017.081

Citation:

Huang Xianyu, Zhang Zhiqi, Wang Hongmei, Chen Xu, Zhu Zongmin, Gu Yansheng, Qin Yangmin, Liu Jinling, Wang Yingchun, 2017. Overview on Critical Zone Observatory at Dajiuhu Peatland, Shennongjia. Earth Science, 42(6): 1026-1038. doi: 10.3799/dqkx.2017.081

PDF( 3027 KB)

Overview on Critical Zone Observatory at Dajiuhu Peatland, Shennongjia

doi: 10.3799/dqkx.2017.081

1.
Laboratory of Critical Zone Evolution, School of Earth Sciences, China University of Geosciences, Wuhan430074, China
2.
State Key Laboratory of Biogeology and Environmental Geology, China University of Geosciences, Wuhan430074, China
3.
Shennongjia National Park Administration, Shennongjia442400, China
4.
School of Environmental Studies, China University of Geosciences, Wuhan430074, China

Received Date: 2017-03-10
Publish Date: 2017-06-15

Abstract

Abstract

Critical zone science is a novel discipline in earth sciences. International researchers investigate on this discipline mainly through critical zone observatory (CZO), with the aim to develop the framework of this discipline and to serve for economic development and ecological protection. In China, CZO studies have just been initiated. Shenongjia Dajiuhu is a typical subalpine peatland, dominated by Sphagnum, in the middle latitude. This peatland is a head source of Duhe River, which finally drains into the Danjiangkou Reservoir. In 2013, Dajiuhu peatland was listed as a Ramsar Wetlands site. With these merits, Dajiuhu is a perfect place to monitor the peatland dynamics. Based on the over ten years' studies on paleoclimate and modern processes in Dajiuhu, we initialed a CZO monitoring program in Dajiuhu in the early 2014. This program considers all elements in the critical zone, with special attention to organisms, water and greenhouse gases. Monitoring points are established in the peatland and the surrounding lakes and rivers, to explore the relationship among wetlands. Within the peatland, both the surficial and deep processes are monitored. To date, most measurements were completed in the field, to eliminate the influence of sample storage. This paper presents both the progresses of our work and the outlooks for the CZO in Dajiuhu. In the near future, we should pay more attention to improvement of the monitoring techniques and facilities, and focus on responses of the carbon cycle to climate changes especially droughts, and evaluation of the influence of climate change and human activities on the ecosystem function of the subalpine wetland. In addition, collaborations with domestic and international researchers will be strengthened. The final objective is to fulfil the theory for subalpine peatland critical zone, and to build the model of peatland critical zone, and to serve for wetland protection and sustainable development.
- critical zone,
- critical zone observatory,
- Dajiuhu basin of Shennongjia,
- carbon cycle,
- climate change,

FullText(HTML)

References(111)

References

An, P.J., Zhang, Z.Q., Wang, L.W., 2016.Review of Earth Critical Zone Research.Advances in Earth Science, 31(12):1228-1234 (in Chinese with English abstract). http://linkinghub.elsevier.com/retrieve/pii/S1878522014000630

Banwart, S., Menon, M., Bernasconi, S.M., et al., 2012.Soil Processes and Functions across an International Network of Critical Zone Observatories: Introduction to Experimental Methods and Initial Results.Comptes Rendus Geoscience, 344(11-12):758-772.doi: 10.1016/j.crte.2012.10.007

Banwart, S.A., Chorover, J., Gaillardet, J., et al., 2013.Sustaining Earth's Critical Zone Basic Science and Interdisciplinary Solutions for Global Challenges.The University of Sheffield, United Kingdom.

Brantley, S.L., Goldhaber, M.B., Ragnarsdottir, K.V., 2007.Crossing Disciplines and Scales to Understand the Critical Zone.Elements, 3(5):307-314.doi: 10.2113/gselements.3.5.307

Chen, X., Bu, Z.J., Stevenson, M.A., et al., 2016.Variations in Diatom Communities at Genus and Species Levels in Peatlands (Central China) Linked to Microhabitats and Environmental Factors.Science of the Total Environment, 568:137-146.doi: 10.1016/j.scitotenv.2016.06.015

Chen, X., Qin, Y.M., Stevenson, M.A., et al., 2014.Diatom Communities along pH and Hydrological Gradients in Three Montane Mires, Central China.Ecological Indicators, 45:123-129.doi: 10.1016/j.ecolind.2014.04.016

Chorover, J., Kretzschmar, R., Garcia-Pichel, F., et al., 2007.Soil Biogeochemical Processes within the Critical Zone.Elements, 3(5):321-326.doi: 10.2113/gselements.3.5.321

Committee of the China's Third Assessment Report on Climate Changes, 2015.China's Third Assessment Report on Climate Changes.Science Press, Beijing, 262-264 (in Chinese).

Dise, N.B., 2009.Peatland Response to Global Change.Science, 326(5954):810-811.doi: 10.1126/science.1174268

Du, M., Sheng, G.L., 2014.RAPD Marker Analysis of Genetic Diversity of Sphagnum in Dajiuhu Wetland, Shennongjia.Journal of Huazhong Normal University(Natural Science), 48(5): 717-721 (in Chinese with English abstract). http://en.cnki.com.cn/Article_en/CJFDTOTAL-HZSZ201405019.htm

Editorial Committee of Shennongjia Annals, 1996.Shennongjia Annals.Hubei Science and Technology Press, Wuhan (in Chinese).

Giannakis, G.V., Nikolaidis, N.P., Valstar, J., et al., 2017.Integrated Critical Zone Model (1D-ICZ):A Tool for Dynamic Simulation of Soil Functions and Soil Structure.Advances in Agronomy, 142: 277-314. doi: 10.1016/bs.agron.2016.10.009

Giardino, J.R., Houser, C., 2015.Principles and Dynamics of the Critical Zone.Elservier, Amsterdam.

Gong, L.F., Wang, H.N., Xiang, X., et al., 2015.pH Shaping the Composition of sqhC-Containing Bacterial Communities.Geomicrobiology Journal, 32(5):433-444.doi: 10.1080/01490451.2014.950363

Gorham, E., 1991.Northern Peatlands:Role in the Carbon Cycle and Probable Responses to Climatic Warming.Ecological Applications, 1(2):182-195.doi: 10.2307/1941811

He, B.Y., 2007.Paleoenvironmental Record in the Dajiuhu Peat Deposit, Shennongjia.China University of Geosciences Press, Wuhan (in Chinese).

He, B.Y., Zhang, S., Cai, S.M., 2003.Climatic Changes Recorded in Peat from the Dajiu Lake Basin in Shennongjia since the Last 2 600 Years.Marine Geology & Quaternary Geology, 23(2):109-115(in Chinese with English abstract). https://www.researchgate.net/publication/284760796_Climatic_changes_recorded_in_peat_from_the_Dajiu_Lake_Basin_in_Shennongjia_since_the_last_2600_years

He, Y.X., Zhao, C., Zheng, Z., et al., 2015.Peatland Evolution and Associated Environmental Changes in Central China over the Past 40 000 Years.Quaternary Research, 84(2):255-261.doi: 10.1016/j.yqres.2015.06.004

Huang, X.Y., Meyers, P.A., Yu, J.X., et al., 2012.Moisture Conditions during the Younger Dryas and the Early Holocene in the Middle Reaches of the Yangtze River, Central China.The Holocene, 22(12):1473-1479.doi: 10.1177/0959683612450202

Huang, X.Y., Meyers, P.A., Jia, C.L., et al., 2013a.Paleotemperature Variability in Central China during the Last 13 ka Recorded by a Novel Microbial Lipid Proxy in the Dajiuhu Peat Deposit.The Holocene, 23(8):1123-1129.doi: 10.1177/0959683613483617

Huang, X.Y., Xue, J.T., Wang, X.X., et al., 2013b.Paleoclimate Influence on Early Diagenesis of Plant Triterpenes in the Dajiuhu Peatland, Central China.Geochimica et Cosmochimica Acta, 123:106-119.doi: 10.1016/j.gca.2013.09.017

Huang, X.Y., Meyers, P.A., Wu, W.C., et al., 2011a.Significance of Long Chain Iso and Anteiso Monomethyl Alkanes in the Lamiaceae (Mint Family).Organic Geochemistry, 42(2):156-165.doi: 10.1016/j.orggeochem.2010.11.008

Huang, X.Y., Wang, C.F., Wiesenberg, G.L.B., et al., 2011b.Lipid Composition of Roots and Leaves in the Herbal Plant Community from the Dajiuhu Peatland, Central China.Geochemical Journal, 45(5):365-373. doi: 10.2343/geochemj.1.0129

Huang X.Y., Meyers, P.A., Xue, J.T., et al., 2015.Environmental Factors Affecting the Low Temperature Isomerization of Homohopanes in Acidic Peat Deposits, Central China.Geochimica et Cosmochimica Acta, 154:212-228.doi: 10.1016/j.gca.2015.01.031

Huang, X.Y., Meyers, P.A., Xue, J.T., et al., 2016.Paleoclimate Significance of n-Alkane Molecular Distributions and δ²H Values in Surface Peats across the Monsoon Region of China.Palaeogeography, Palaeoclimatology, Palaeoecology, 461:77-86.doi: 10.1016/j.palaeo.2016.08.011

Huang, X.Y., Meyers, P.A., Xue, J.T., et al., 2014a.Cryptic Abundance of Long-Chain Iso and Anteiso Alkanes in the Dajiuhu Peat Deposit, Central China.Organic Geochemistry, 66:137-139.doi: 10.1016/j.orggeochem.2013.11.011

Huang, X.Y., Xue, J.T., Meyers, P.A., et al., 2014b.Hydrologic Influence on δ¹³C Variations in Long-Chain n-Alkanes in the Dajiuhu Peatland, Central China.Organic Geochemistry, 69:114-119. doi: 10.1016/j.orggeochem.2014.01.016

Huang, X.Y., Wang, C.F., Xue, J.T., et al., 2010.Occurrence of Diploptene in Moss Species from the Dajiuhu Peatland in Southern China.Organic Geochemistry, 41(3):321-324.doi: 10.1016/j.orggeochem.2009.09.008

Huang, X.Y., Xie, S.C., 2016.An Overview of the Molecular Paleoclimate in Peat Deposits.Quaternary Sciences, 36(3):666-675 (in Chinese with English abstract). doi: 10.11928/j.issn.1001-7410.2016.03.16

Huang, X.Y., Xie, S.C., Zhang, C.L., et al., 2008.Distribution of Aliphatic Des-A-Triterpenoids in the Dajiuhu Peat Deposit, Southern China.Organic Geochemistry, 39(12):1765-1771.doi: 10.1016/j.orggeochem.2008.08.002

Lamentowicz, M., Słowińska, S., Słowiński, M., et al., 2016.Combing Short-Term Manipulative Experiments with Long-Term Palaeoecological Investigations at High Resolution to Assess the Response of Sphagnum Peatlands to Drought, Fire and Warming.Mires and Peat, 18, article 20:1-17 https://www.researchgate.net/publication/308633873_Combining_short-term_manipulative_experiments_with_long-term_paleoecological_investigations_at_high_resolution_to_assess_the_response_of_Sphagnum_peatlands_to_drought_fire_and_warming

Lehmann, J., Münchberger, W., Knoth, C., et al., 2016.High-Resolution Classification of South Patagonian Peat Bog Microforms Reveals Potential Gaps in Up-Scaled CH₄ Fluxes by Use of Unmanned Aerial System (UAS) and CIR Imagery.Remote Sensing, 8(3):173.doi: 10.3390/rs8030173

Li, J., Zheng, Z., Huang, K.Y., et al., 2013.Vegetation Changes during the Past 40 000 Years in Central China from a Long Fossil Record.Quaternary International, 310:221-226.doi: 10.1016/j.quaint.2012.01.009

Li, W.Y., Liu, G.X., Zhou, M.M., 1992.The Vegetation and Climate of Holocene Hypsithermal in Northern Hubei Province.In:Shi, Y.F., Kong, Z.C., eds., The Climates and Environments of Holocene Megathermal in China.China Ocean Press, Beijing, 94-99 (in Chinese).

Li, Y.P., Ma, C.M., Zhou, B., et al., 2016.Environmental Processes Derived from Peatland Geochemistry since the Last Deglaciation in Dajiuhu, Shennongjia, Central China.Boreas, 45(3):423-438.doi: 10.1111/bor.12168

Liu, H.P., Tang, X.C., Sun, D.H., et al., 2001.Palynofloras of the Dajiuhu Basin in Shennongjia Mountains during the Last 12.5 ka.Acta Micropalaeontologica Sinica, 18(1):101-109(in Chinese with English abstract). http://en.cnki.com.cn/Article_en/CJFDTOTAL-WSGT200101013.htm

Liu, Q., Wang, H.M., Gong, L.F., et al., 2013.Symbiotic Bacterial Community of Sphagnum palustre in Dajiuhu Peatland, Hubei, P.R.China.Quaternary Sciences, 33(1):79-87 (in Chinese with English abstract). https://www.researchgate.net/publication/236345793_SYMBIOTIC_BACTERIAL_COMMUNITY_OF_Sphagnum_palustre_IN_DAJIUHU_PEATLANDHUBEIP_R_CHINA

Lun, Z.J., Gu, Y.S., Liu, H.Y., et al., 2016.Phytolith Records in the Surface Soils of Dajiuhu Wetland and Their Environmental Significance, Shenongjia Mountains.Quaternary Sciences, 36(3):656-665 (in Chinese with English abstract). http://www.dsjyj.com.cn/EN/Y2016/V36/I3/656

Luo, T., Lun, Z.J., Gu, Y.S., et al., 2015.Plant Community Survey and Ecological Protection of Dajiuhu Wetlands in Shennongjia Area.Wetland Science, 13(2):153-160 (in Chinese with English abstract). https://www.researchgate.net/publication/282924958_Plant_community_survey_and_ecological_protection_of_dajiuhu_wetlands_in_Shennongjia_area

Mulot, M., Villard, A., Varidel, D., et al., 2015.A Mesocosm Approach to Study the Response of Sphagnum Peatlands to Hydrological Changes:Setup, Optimisation and Performance.Mires and Peat, 16, article9:1-12. https://www.researchgate.net/publication/282754156_A_mesocosm_approach_to_study_the_response_of_Sphagnum_peatlands_to_hydrological_changes_Setup_optimisation_and_performance

NRC, 2001.Basic Research Opportunities in the Earth Sciences.National Academies Press, Washington, D.C., 35-45.

Page, S.E., Baird, A.J., 2016.Peatlands and Global Change:Response and Resilience.Annual Review of Environment and Resources, 41(1):35-57.doi: 10.1146/annurev-environ-110615-085520

Qin, Y.M., Man, B.Y., Kosakyan, A., et al., 2016.Nebelajiuhuensisnov.sp.(Amoebozoa; Arcellinida; Hyalospheniidae):A New Member of the Nebelasaccifera-equicalceus-ansata Group Described from Sphagnum Peatlands in South-Central China.Journal of Eukaryotic Microbiology, 63(5):558-566.doi: 10.1111/jeu.12300

Qin, Y.M., Mitchell, E.A.D., Lamentowicz, M., et al., 2013.Ecology of Testate Amoebae in Peatlands of Central China and Development of a Transfer Function for Paleohydrological Reconstruction.Journal of Paleolimnology, 50(3):319-330.doi: 10.1007/s10933-013-9726-6

Qin, Y.M., Payne, R.J., Gu, Y.S., et al., 2012.Ecology of Testate Amoebae in Dajiuhu Peatland of Shennongjia Mountains, China, in Relation to Hydrology.Frontiers of Earth Science, 6(1):57-65.doi: 10.1007/s11707-012-0307-1

Qin, Y.M., Wang, H.L., Zhang, Q.F., et al., 2013.Response of Testate Amoebae Community to Water Chemistry in Peatlands near the Middle Reach of Yangtze River.Quaternary Sciences, 33(1):26-33 (in Chinese with English abstract). http://www.researchgate.net/publication/236345794_RESPONSE_OF_TESTATE_AMOEBAE_COMMUNITY_TO_WATER_CHEMISTRY_IN_PEATLANDS_NEAR_THE_MIDDLE_REACH_OF_YANGTZE_RIVER

Qin, Y.M., Wang, J.X., Xie, S.C., et al., 2010.Morphological Variation and Habitat Selection of Testate Amoebae in Dajiuhu Peatland, Central China.Journal of Earth Science, 21(S1):253-256.doi: 10.1007/s12583-010-0228-4

Qin, Y.M., Xie, S.C., 2011.Moss-Dwelling Testate Amoebae and Their Community in Dajiuhu Peatland of Shennongjia Mountains, China.Journal of Freshwater Ecology, 26(1):3-9.doi: 10.1080/02705060.2011.553810

Qin, Y.M., Xie, S.C., Gu, Y.S., et al., 2008.Pontigulasiapangulostomanov.Spec., a New Testate Amoeba from the Peatland of Shennongjia Mountains, China.Acta Protozoologica, 47(2):155-160. http://med.wanfangdata.com.cn/Paper/Detail?id=PeriodicalPaper_JJ025292986

Qin, Y.M., Xie, S.C., Smith, H.G., et al., 2011.Diversity, Distribution and Biogeography of Testate Amoebae in China:Implications for Ecological Studies in Asia.European Journal of Protistology, 47(1):1-9.doi: 10.1016/j.ejop.2010.09.004

Qin, Y.M., Zhang, W.J., Li, H.K., et al., 2011.Note on the Taxonomy of Testate Amoebae and Their Applications in Ecology and Paleoecology of China, with Particular Reference to Genus Argynnia Vucetich.Quaternary Sciences, 36(6):1060-1067 (in Chinese with English abstract). http://en.cnki.com.cn/Article_en/CJFDTotal-DSJJ201106014.htm

Rezanezhad, F., Price, J.S., Quinton, W.L., et al., 2016.Structure of Peat Soils and Implications for Water Storage, Flow and Solute Transport:A Review Update for Geochemists.Chemical Geology, 429:75-84.doi: 10.1016/j.chemgeo.2016.03.010

Shi, M., Yu, J.X., Gu, Y.S., et al., 2008.Climate Changes in Interim of Late Pleistocene and Holocene in Dajiuhu Basin of Shennongjia, Hubei Province:Evidence from Pollen.Geological Science and Technology Information, 27(6):24-28(in Chinese with English abstract). http://en.cnki.com.cn/Article_en/CJFDTOTAL-DZKQ200806006.htm

Tan, K.J., Zhou, X.Q., Zhang, Z.Q., 2014.Development and Protection of Dajiuhu Wetland, Shennongjia.Hubei Forestry Science and Technology, 43(1):52-55(in Chinese).

Tuo, D.Z., Liu, S.X., 2006.Wetlands of Hubei Province.Hubei Science and Technology Press, Wuhan, 48-50(in Chinese).

Wang, X.X., Huang, X.Y., Sachse, D., et al., 2016.Comparisons of Lipid Molecular and Carbon Isotopic Compositions in Two Particle-Size Fractions from Surface Peat and Their Implications for Lipid Preservation.Environmental Earth Sciences, 75(15):1142.doi: 10.1007/s12665-016-5960-3

White, T., 2012.Special Focus:The US Critical Zone Observatories.Int.Innovation Environment, (8):108-127.

Wu, Y., Xiang, W., Fu, X.F., 2016.Effect of Phenolic Acids Derived from Peatland on Surface Behavior of Iron and Its Significance:A Case Study in Hani Peatland.Earth Science, 41(4): 683-691(in Chinese with English abstract). http://en.cnki.com.cn/Article_en/CJFDTotal-DQKX201604014.htm

Xiang, W., Wan, X., Yan, S., et al., 2013.Inhibitory Effects of Drought Induced Acidification on Phenol Oxidase Activities in Sphagnum-Dominated Peatland.Biogeochemistry, 116(1-3):293-301.doi: 10.1007/s10533-013-9859-8

Xiang, X., Wang, H.M., Gong, L.F., et al., 2013.Vertical Variations and Associated Ecological Function of Bacterial Communities from Sphagnum to Underlying Sediments in Dajiuhu Peatland.Science China:Earth Sciences, 57(5):1013-1020.doi: 10.1007/s11430-013-4752-9

Xiao, J.Y., Xiao, X.Y., Zhang, M.H., et al., 2015.Late Pleistocene Montane Vegetation and Climate History from the Dajiuhu Basin in the Western Hubei Province of Central China.Review of Palaeobotany and Palynology, 222:22-32.doi: 10.1016/j.revpalbo.2015.08.001

Xie, S., Evershed, R.P., Huang, X., et al., 2013.Concordant Monsoon-Driven Postglacial Hydrological Changes in Peat and Stalagmite Records and Their Impacts on Prehistoric Cultures in Central China.Geology, 41(8):827-830.doi: 10.1130/g34318.1

Xie, S.C., Hu, C.Y., Gu, Y.S., et al., 2015.Paleohydrological Variation since 13 ka B.P. in Middle Yangtze Region.Earth Science, 40(2):198-205(in Chinese with English abstract). http://www.en.cnki.com.cn/Article_en/CJFDTotal-DQKX201502002.htm

Xu, H., Lan, J.H., Sheng, E.G., et al., 2016.Tropical/Subtropical Peatland Development and Global CH₄ during the Last Glaciation.Scientific Reports, 6(1):30431.doi: 10.1038/srep30431

Yang, J.F., Zhang, C.G., 2014.Earth's Critical Zone:A Holistic Framework for Geo-Environmental Researches.Hydrogeology & Engineering Geology, 41(3):98-104, 110(in Chinese with English abstract). http://en.cnki.com.cn/Article_en/CJFDTOTAL-SWDG201403020.htm

Yang, L.Y., Wu, Y., Huang, J.H., et al., 2009.Lignin Characteristics in a Peat Core of Lake Dajiu.Geochimica, 38(2):133-139(in Chinese with English abstract). http://en.cnki.com.cn/Article_en/CJFDTOTAL-DQHX200902004.htm

Yu, Z., 2011.Holocene Carbon Flux Histories of the World's Peatlands:Global Carbon-Cycle Implications.The Holocene, 21(5):761-774.doi: 10.1177/0959683610386982

Yu, Z.C., Loisel, J., Brosseau, D.P., et al., 2010.Global Peatland Dynamics since the Last Glacial Maximum.Geophysical Research Letters, 37(13):L13402.doi: 10.1029/2010gl043584

Zhang, W.C., Yan, H., Cheng, P., et al., 2016.Peatland Development and Climate Changes in the Dajiuhu Basin, Central China, over the Last 14 100 Years.Quaternary International, 425:273-281.doi: 10.1016/j.quaint.2016.06.039

Zhang, Y.M., Zheng, M., Meyers, P.A., et al., 2017.Impact of Early Diagenesis on Distributions of Sphagnum n-Alkanes in Peatlands of the Monsoon Region of China.Organic Geochemistry, 105:13-19.doi: 10.1016/j.orggeochem.2016.12.007

Zhang, Z., Wang, C.F., Qiu, X., et al., 2009.Occurrence of Highly Abundant Bacterial Hopanoids in Dajiuhu Peatland, Central China.Frontiers of Earth Science in China, 3(3):320-326.doi: 10.1007/s11707-009-0039-z

Zhao, K.Y., 1999.China Marsh.Science Press, Beijing, 408-410(in Chinese).

Zhao, Y., Hölzer, A., Yu, Z.C., 2007.Late Holocene Natural and Human-Induced Environmental Change Reconstructed from Peat Records in Eastern Central China.Radiocarbon, 49(2):789-798.doi: 10.1017/s0033822200042661

Zhao, Y., Yu, Z.C., Tang, Y., et al., 2014.Peatland Initiation and Carbon Accumulation in China over the Last 50 000 Years.Earth-Science Reviews, 128:139-146.doi: 10.1016/j.earscirev.2013.11.003

Zhao, Z.Z., He, P.Y., 1997.Quaternary Glacial and Environment in Shennongjia.Geological Publishing House, Beijing(in Chinese).

Zheng, L., Huang, X., 2017.Occurrence of a Tetraaromatic Hopane in the Late Holocene Peat Deposit, Central China.Organic Geochemistry, 106:25-29. doi: 10.1016/j.orggeochem.2017.01.008

Zheng, Q.F., Zhang, M.H., Li, J.J., et al., 2014.The Climate and Environment Change of Shennongjia Area Recorded in the Core of Dajiuhu Basin since the Late Middle Pleistocene.Geographical Research, 33(6):1167-1177(in Chinese with English abstract). http://www.dlyj.ac.cn/EN/Y2014/V33/I6/1167

Zhu, C., Ma, C.M., Yu, S.Y., et al., 2010.A Detailed Pollen Record of Vegetation and Climate Changes in Central China during the Past 16 000 Years.Boreas, 39(1):69-76.doi: 10.1111/j.1502-3885.2009.00098.x

Zhu, C., Ma, C.M., Zhang, W.Q., et al., 2006.Pollen Record from Dajiuhu Basin of Shennongjia and Environmental Changes since 15.753 ka B.P..Quaternary Sciences, 26(5):814-826(in Chinese with English abstract). https://www.researchgate.net/publication/284762857_Pollen_record_from_Dajiuhu_basin_of_Shennongjia_and_environmental_changes_since_15753_ka_BP?_sg=wksQjFv7As3Wz9t7EtmTDldv2KrJ4shEwjT0HIdeDMYJxsy6deNvt7SInoJGuY7TURCnbNjk94RN0EHA12yQ7A

Zhu, Y., Chen, Y., Zhao, Z.J., et al., 2009.Record of Environmental Change by α-Cellulose δ¹³C of Sphagnum Peat at Shennongjia, 1 000-4 000 a BP.Chinese Science Bulletin, 54(20):3108-3116 (in Chinese). http://kns.cnki.net/KCMS/detail/detail.aspx?filename=jxtw200920024&dbname=CJFD&dbcode=CJFQ

Zhu, Y., Zhao, Z.J., Chen, Y., et al., 2013.Record of Environmental and Millennial-Scale Climatic Changes during MIS3 by Peat at Shennongjia.Quaternary Sciences, 33(1):155-166(in Chinese with English abstract). http://en.cnki.com.cn/Article_en/CJFDTotal-DSJJ201301021.htm

Zhu, Y.G., Li, G., Zhang, G.L., et al., 2015.Soil Security:From Earth's Critical Zone to Ecosystem Services.Acta Geographica Sinica, 70(12):1859-1869(in Chinese with English abstract). http://en.cnki.com.cn/Article_en/CJFDTotal-DLXB201512002.htm

安培浚, 张志强, 王立伟, 2016.地球关键带的研究进展.地球科学进展, 31(12):1228-1234. http://www.cnki.com.cn/Article/CJFDTOTAL-DXJZ201612004.htm

第三次国家气候变化评估报告编委会, 2015. 北京: 第三次国家气候变化评估报告, 262-264.

杜明, 盛桂莲, 2014.神农架大九湖湿地泥炭藓遗传多样性RAPD研究.华中师范大学学报(自然科学版), 48(5):717-721. http://www.cnki.com.cn/Article/CJFDTOTAL-HZSZ201405019.htm

何报寅, 2007.神农架大九湖泥炭的环境变化记录.武汉:中国地质大学出版社.

何报寅, 张穗, 蔡述明, 2003.近2 600年神农架大九湖泥炭的气候变化记录.海洋地质与第四纪地质, 23(2):109-115.

湖北省神农架林区地方志编纂委员会, 1996.神农架志.武汉:湖北科学技术出版社.

黄咸雨, 谢树成, 2016.泥炭沉积分子古气候研究进展.第四纪研究, 36(3):666-675. http://cdmd.cnki.com.cn/Article/CDMD-80165-2005128983.htm

李文漪, 刘光琇, 周明明, 1992. 湖北西部全新世温暖期植被与气候. 见: 施雅风, 孔昭宸. 北京: 中国全新世大暖期气候与环境. 海洋出版社, 94-99.

刘会平, 唐晓春, 孙东怀, 等, 2001.神农架大九湖12.5 ka B.P.以来的孢粉与植被序列.微体古生物学报, 18(1):101-109. http://www.cnki.com.cn/Article/CJFDTOTAL-WSGT200101013.htm

刘乔, 王红梅, 龚林锋, 等, 2013.湖北神农架大九湖泥炭地泥炭藓共生细菌群落分析.第四纪研究, 33(1):79-87. http://www.cnki.com.cn/Article/CJFDTOTAL-DSJJ201301012.htm

伦子健, 顾延生, 刘红叶, 等, 2016.神农架大九湖湿地表土植硅体记录及其环境意义.第四纪研究, 36(3):656-665. http://www.dsjyj.com.cn/EN/abstract/abstract11204.shtml

罗涛, 伦子健, 顾延生, 等, 2015.神农架大九湖湿地植物群落调查与生态保护研究.湿地科学, 13(2):153-160. http://www.cnki.com.cn/Article/CJFDTOTAL-KXSD201502003.htm

秦养民, 王翰林, 张千帆, 等, 2013.长江中游泥炭湿地有壳变形虫空间分布及其对水化学因子的响应.第四纪研究, 33(1):26-33. http://www.cnki.com.cn/Article/CJFDTOTAL-DSJJ201301005.htm

秦养民, 张文静, 李鸿凯, 等, 2011.中国有壳变形虫Argynnia属的修订及其若干环境重建问题探讨.第四纪研究, 36(6):1060-1067. http://www.cnki.com.cn/Article/CJFDTOTAL-DSJJ201106014.htm

石敏, 喻建新, 顾延生, 等, 2008.神农架大九湖晚更新世与全新世之交的气候变化——来自孢粉的信息.地质科技情报, 27(6):24-28. http://www.cnki.com.cn/Article/CJFDTOTAL-DZKQ200806006.htm

谭开甲, 周晓庆, 张志麒, 2014.神农架大九湖湿地开发与保护.湖北林业科技, 43(1):52-55. http://www.cnki.com.cn/Article/CJFDTOTAL-RIVE200919019.htm

庹德政, 刘胜祥, 2006.湖北湿地.武汉:湖北科学技术出版社, 48-50.

邬钰, 向武, 傅先芳, 等., 2016.东北哈尼泥炭沼泽中酚酸的组成、酚铁相互作用及其环境意义.地球科学, 41(4):683-691. http://www.earth-science.net/WebPage/Article.aspx?id=3285

向兴, 王红梅, 龚林锋, 等, 2014.细菌群落在神农架大九湖泥炭藓与表层沉积物的垂向变化及其生态意义.中国科学:地球科学, 44(6):1244-1252. http://www.cnki.com.cn/Article/CJFDTOTAL-JDXK201406016.htm

谢树成, 胡超涌, 顾延生, 等, 2015.最近13 ka以来长江中游古水文变化.地球科学, 40(2):198-205. http://www.earth-science.net/WebPage/Article.aspx?id=3178

杨建锋, 张翠光, 2014.地球关键带:地质环境研究的新框架.水文地质工程地质, 41(3):98-104, 110. http://www.cnki.com.cn/Article/CJFDTOTAL-SWDG201403020.htm

杨丽阳, 吴莹, 黄俊华, 等, 2009.大九湖泥炭柱样的木质素特征.地球化学, 38(2):133-139. http://www.cnki.com.cn/Article/CJFDTOTAL-DQHX200902004.htm

赵魁义, 1999.中国沼泽志.北京:科学出版社, 408-410.

赵志中, 何培元, 1997.神农架第四纪冰期与环境.北京:地质出版社.

郑秋凤, 张茂恒, 李吉均, 等.2014.大九湖钻孔记录的神农架地区中更新世晚期以来的气候环境变化.地理研究, 33(6):1167-1177. doi: 10.11821/dlyj201406016

朱诚, 马春梅, 张文卿, 等, 2006.神农架大九湖15.753 ka B.P.以来的孢粉记录和环境演变.第四纪研究, 26(5):814-826. http://kns.cnki.net/KCMS/detail/detail.aspx?filename=dsjj200605017&dbname=CJFD&dbcode=CJFQ

朱芸, 陈晔, 赵志军, 等, 2009.神农架大九湖泥炭藓泥炭α-纤维素δ¹³C记录的1 000~4 000 a B.P.间环境变化.科学通报, 54(20):3108-3116. http://kns.cnki.net/KCMS/detail/detail.aspx?filename=kxtb200920022&dbname=CJFD&dbcode=CJFQ

朱芸, 赵志军, 陈晔, 等, 2013.神农架泥炭记录的MIS3阶段环境变化及千年尺度气候波动.第四纪研究, 33(1):155-166. http://www.cnki.com.cn/Article/CJFDTOTAL-DSJJ201301021.htm

朱永官, 李刚, 张甘霖, 等, 2015.土壤安全:从地球关键带到生态系统服务.地理学报, 70(12):1859-1869. http://www.cnki.com.cn/Article/CJFDTOTAL-DLXB201512002.htm

Relative Articles

Supplements(0)

Cited By

Proportional views