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M. Dosskey, P. Vidon, N. Gurwick, C. Allan, T. Duval, R. Lowrance (2010)
The Role of Riparian Vegetation in Protecting and Improving Chemical Water Quality in Streams 1JAWRA Journal of the American Water Resources Association, 46
A. Austin, P. Vitousek (2000)
Precipitation, decomposition and litter decomposability of Metrosideros polymorpha in native forests on Hawai’iJournal of Ecology, 88
Limin Ma, Jing Yuan, Xiaojing Sun, Ming-jun Zhang (2012)
Spatial distribution and release of nitrogen in soils in the water fluctuation zone of the Three Gorges Reservoir
Dong-Jie Ren, S. Shen, W. Cheng, Ning Zhang, Zhi-Feng Wang (2016)
Geological formation and geo-hazards during subway construction in GuangzhouEnvironmental Earth Sciences, 75
E. Langer, G. Steward, M. Kimberley (2008)
Vegetation structure, composition and effect of pine plantation harvesting on riparian buffers in New ZealandForest Ecology and Management, 256
Liwei Xiao, B. Zhu, Mathieu Kumwimba, Shiwei Jiang (2017)
Plant soaking decomposition as well as nitrogen and phosphorous release in the water-level fluctuation zone of the Three Gorges Reservoir.The Science of the total environment, 592
Ji ShengLin, F. Dayong, Xie Zongqiang, Zhang Xiang-ying, Xiong Gaoming (2012)
Features of leaf photosynthesis and leaf nutrient traits in reservoir riparian region of Three Gorges Reservoir,ChinaActa Ecologica Sinica, 32
XM Cai (2000)
Ecosystem ecology
Kai Yue, Wanqin Yang, C. Peng, Yan Peng, Chuan Zhang, Chunping Huang, Yu Tan, Fuzhong Wu (2016)
Foliar litter decomposition in an alpine forest meta-ecosystem on the eastern Tibetan Plateau.The Science of the total environment, 566-567
P. Vitousek, D. Turner, W. Parton, R. Sanford (1994)
Litter Decomposition on the Mauna Loa Environmental Matrix, Hawai'i: Patterns, Mechanisms, and ModelsEcology, 75
Chen Ye, Siyue Li, Yulong Zhang, Quanfa Zhang (2011)
Assessing soil heavy metal pollution in the water-level-fluctuation zone of the Three Gorges Reservoir, China.Journal of hazardous materials, 191 1-3
Xing-zhong Yuan, Yue-wei Zhang, Hong Liu, Sen Xiong, Bo Li, Wei Deng (2013)
The littoral zone in the Three Gorges Reservoir, China: challenges and opportunitiesEnvironmental Science and Pollution Research, 20
Zhang Shansha (2015)
Tree species selection in the riparian zone of Meishan reservoirJournal of Anhui Agricultural University
B. Berg, M. Johansson, G. Ekbohm, C. Mcclaugherty, F. Rutigliano, A. Santo (1996)
Maximum decomposition limits of forest litter types: a synthesisBotany, 74
T. Teklay (2007)
Decomposition and nutrient release from pruning residues of two indigenous agroforestry species during the wet and dry seasonsNutrient Cycling in Agroecosystems, 77
Z. Zhiyong, Peng Jianhua, Wan Chengyan, Zheng Zhiwei, Qiu Denggao (2010)
Distribution and decomposition dynamics of herb plants in Pengxihe water-fluctuation-zone of the Three Gorges ReservoirActa Pratacultural Science, 19
R. Daniels, J. Gilliam (1996)
Sediment and Chemical Load Reduction by Grass and Riparian FiltersSoil Science Society of America Journal, 60
Deping Zhai, Wanyu Jin, J. Shao, Yanghui He, Guodong Zhang, Ming Li, Hui-Hsueh Huang, Xuhui Zhou (2017)
Different Response Patterns of Soil Respiration to a Nitrogen Addition Gradient in Four Types of Land-Use on an Alluvial Island in ChinaEcosystems, 20
Chunping Ren, Lijing Wang, B. Zheng, J. Qian, Hongjin Ton (2016)
Ten-year change of total phosphorous pollution in the Min River, an upstream tributary of the Three Gorges ReservoirEnvironmental Earth Sciences, 75
R. Kröger, Marjorie Holland, M. Moore, Charles Cooper (2007)
Plant senescence: a mechanism for nutrient release in temperate agricultural wetlands.Environmental pollution, 146 1
Verónica Ferreira, É. Chauvet (2011)
Synergistic effects of water temperature and dissolved nutrients on litter decomposition and associated fungiGlobal Change Biology, 17
A. Lee, P. Bukaveckas (2002)
Surface water nutrient concentrations and litter decomposition rates in wetlands impacted by agriculture and mining activitiesAquatic Botany, 74
H. Neckles, C. Neill (1994)
Hydrologic control of litter decomposition in seasonally flooded prairie marshesHydrobiologia, 286
Jiang Ming (2008)
Dynamics of Nitrogen and Phosphorus Content during Leaf Litter Decomposition in Xiangxi River Watershed,the Three Gorges RegionJournal of Wuhan Botanical Research
A. Zanne, B. Oberle, K. Dunham, Amy Milo, Maranda Walton, Darcy Young (2015)
A deteriorating state of affairs: How endogenous and exogenous factors determine plant decay ratesJournal of Ecology, 103
Chen Ye, Xiaoli Cheng, Yulong Zhang, Zhixiu Wang, Quanfa Zhang (2012)
Soil nitrogen dynamics following short-term revegetation in the water level fluctuation zone of the Three Gorges Reservoir, ChinaEcological Engineering, 38
Xuexin Shao, X. Liang, Ming Wu, Xiao-qi Ye, Ke-yi Jiang (2014)
[Decomposition and phosphorus dynamics of the litters in standing and litterbag of the Hangzhou Bay coastal wetland ].Huan jing ke xue= Huanjing kexue, 35 9
马文超 Wenchao, 刘媛 Yuan, 周翠 Cui, 王婷 Ting, 魏虹 Hong (2017)
Effect of water-level change on nutritional characteristics of Taxodium distichum in the hydro-fluctuation belt of the Three Gorges ReservoirActa Ecologica Sinica, 37
W. Wieder, C. Cleveland, A. Townsend (2009)
Controls over leaf litter decomposition in wet tropical forests.Ecology, 90 12
Yonghong Xie, Dan Yu, Bo Ren (2004)
Effects of nitrogen and phosphorus availability on the decomposition of aquatic plantsAquatic Botany, 80
Aggie Li, Lily Ng, D. Dudgeon (2009)
Effects of leaf toughness and nitrogen content on litter breakdown and macroinvertebrates in a tropical streamAquatic Sciences, 71
J. Willison, Ruoxi Li, Xing-zhong Yuan (2013)
Conservation and ecofriendly utilization of wetlands associated with the Three Gorges ReservoirEnvironmental Science and Pollution Research, 20
J. Molinero, J. Pozo, E. González (1996)
Litter breakdown in streams of the Agüera catchment: influence of dissolved nutrients and land useFreshwater Biology, 36
A. Schmidt, K. John, H. Auge, R. Brandl, F. Horgan, J. Settele, A. Zaitsev, V. Wolters, M. Schädler (2016)
Compensatory mechanisms of litter decomposition under alternating moisture regimes in tropical rice fieldsApplied Soil Ecology, 107
W. Parton, W. Silver, I. Burke, L. Grassens, M. Harmon, W. Currie, J. King, E. Adair, L. Brandt, S. Hart, B. Fasth (2007)
Global-Scale Similarities in Nitrogen Release Patterns During Long-Term DecompositionScience, 315
M. Graça, C. Cressa (2010)
Leaf Quality of Some Tropical and Temperate Tree Species as Food Resource for Stream ShreddersInternational Review of Hydrobiology, 95
Astrid Taylor, D. Schröter, A. Pflug, V. Wolters (2004)
Response of different decomposer communities to the manipulation of moisture availability: potential effects of changing precipitation patternsGlobal Change Biology, 10
C. Shu (2006)
Leaf litter decomposition dynamics of different tree species in Xiangxi River watershed,the Three Gorges regionActa Ecologica Sinica
Y. Xiong, Xin Hao, Chengle Liao, Zhuo Zeng (2015)
Relationship between water-conservation behavior and water education in Guangzhou, ChinaEnvironmental Earth Sciences, 75
X Shao, X Liang, M Wu, X Ye, K Jiang (2014)
Decomposition and phosphorus dynamics of the litter in standing and litterbag of the Hangzhou Bay coastal wetlandEnviron Sci, 35
Chaoying Wang, Changxiao Li, Hong Wei, Yingzan Xie, W. Han (2016)
Effects of Long-Term Periodic Submergence on Photosynthesis and Growth of Taxodium distichum and Taxodium ascendens Saplings in the Hydro-Fluctuation Zone of the Three Gorges Reservoir of ChinaPLoS ONE, 11
M. Das, T. Royer, L. Leff (2008)
Fungal communities on decaying leaves in streams: a comparison of two leaf speciesMycological Progress, 7
R. Kelley, J. Jack (2002)
Leaf litter decomposition in an ephemeral karst lake (Chaney Lake, Kentucky, U.S.A.)Hydrobiologia, 482
Ji-hui Fan, Xiaoke Zhang, X. Lui, Yan Yan, Xiaodan Wang (2014)
Leaf Litter Decomposition in Three Subalpine Forests along an Elevation Gradient in TibetPolish Journal of Environmental Studies, 23
T. Jordan, D. Correll, D. Weller (1993)
Nutrient Interception by a Riparian Forest Receiving Inputs from Adjacent CroplandJournal of Environmental Quality, 22
Guodong Liu, Jinfang Sun, K. Tian, De-rong Xiao, Xing-zhong Yuan (2017)
Long‐term responses of leaf litter decomposition to temperature, litter quality and litter mixing in plateau wetlandsFreshwater Biology, 62
K. Kalburtji, J. Mosjidis, A. Mamolos (2004)
Litter dynamics of low and high tannin sericea lespedeza plants under field conditionsPlant and Soil, 208
S. Fonte, T. Schowalter (2004)
Decomposition of Greenfall vs. Senescent Foliage in a Tropical Forest Ecosystem in Puerto Rico, 36
J Wang, B Zhu, T Wang, L Yi (2012)
Nitrogen and phosphorus release from herbaceous vegetation under simulated inundation experiment of water-level fluctuation zone in the Three Gorges Reservoir areaEnviron Sci, 33
N. Pettit, T. Davies, J. Fellman, P. Grierson, D. Warfe, P. Davies (2011)
Leaf litter chemistry, decomposition and assimilation by macroinvertebrates in two tropical streamsHydrobiologia, 680
Mayu Hisabae, Shinzaburo Sone, Mikio Inoue (2011)
Breakdown and macroinvertebrate colonization of needle and leaf litter in conifer plantation streams in Shikoku, southwestern JapanJournal of Forest Research, 16
Prosper Mfilinge, N. Atta, M. Tsuchiya (2002)
Nutrient dynamics and leaf litter decomposition in a subtropical mangrove forest at Oura Bay, Okinawa, JapanTrees, 16
Liu Liu, De-fu Liu, David Johnson, Z. Yi, Yuling Huang (2012)
Effects of vertical mixing on phytoplankton blooms in Xiangxi Bay of Three Gorges Reservoir: implications for management.Water research, 46 7
Yuling Huang, D. Fan, De-fu Liu, Lin-xu Song, Daobin Ji, Erqing Hui (2016)
Nutrient estimation by HJ-1 satellite imagery of Xiangxi Bay, Three Gorges Reservoir, ChinaEnvironmental Earth Sciences, 75
B. Berg (2000)
Litter decomposition and organic matter turnover in northern forest soilsForest Ecology and Management, 133
B Berg (2000)
Litter decomposition and organic matter turn over in northern forest soilsFor Ecol Manag, 133
R. Albariño, E. Balseiro (2002)
Leaf litter breakdown in Patagonian streams: native versus exotic trees and the effect of invertebrate sizeAquatic Conservation-marine and Freshwater Ecosystems, 12
Tim Moore, J. Trofymow, C. Prescott, J. Fyles, B. Titus (2006)
Patterns of Carbon, Nitrogen and Phosphorus Dynamics in Decomposing Foliar Litter in Canadian ForestsEcosystems, 9
B. Fu, Bing-fang Wu, Y. Lü, Zhihong Xu, Jing Cao, D. Niu, Guirong Yang, Yuemin Zhou (2010)
Three Gorges Project: Efforts and challenges for the environmentProgress in Physical Geography, 34
Stefan Trogisch, Jin-Sheng He, A. Hector, M. Scherer‐Lorenzen (2016)
Impact of species diversity, stand age and environmental factors on leaf litter decomposition in subtropical forests in ChinaPlant and Soil, 400
A. Tonin, R. Restello, L. Hepp (2014)
Chemical change of leaves during breakdown affects associated invertebrates in a subtropical streamActa Limnologica Brasiliensia, 26
E. Alvim, A. Medeiros, R. Rezende, J. Gonçalves (2015)
Small leaf breakdown in a Savannah headwater streamLimnologica, 51
Wenyan Zhu, Jinzhou Wang, Zhenhua Zhang, Fei Ren, Litong Chen, Jinsheng He (2016)
Changes in litter quality induced by nutrient addition alter litter decomposition in an alpine meadow on the Qinghai-Tibet PlateauScientific Reports, 6
Xibao Xu, Yan Tan, Guishan Yang (2013)
Environmental impact assessments of the Three Gorges Project in China: Issues and interventionsEarth-Science Reviews, 124
ER Langer, GA Steward, MO Kimberley (2008)
Vegetation structure, composition and effect of pine plantation harvesting on riparian buffers in New ZealandFor Ecol Manag, 256
Zhigao Sun, X. Mou, Jing Liu (2012)
Effects of flooding regimes on the decomposition and nutrient dynamics of Calamagrostis angustifolia litter in the Sanjiang Plain of ChinaEnvironmental Earth Sciences, 66
Aingeru Martínez, A. Larrañaga, J. Pérez, E. Descals, J. Pozo (2014)
Temperature affects leaf litter decomposition in low-order forest streams: field and microcosm approaches.FEMS microbiology ecology, 87 1
Yang Ji (2006)
Decomposition and nutrient dynamics of marsh litter in the Sanjiang Plain, ChinaActa Ecologica Sinica
Sen-Her Shieh, Chiao‐Ping Wang, Chorng-Bin Hsu, P. Yang (2008)
Leaf breakdown in a subtropical stream : nutrient release patternsFundamental and Applied Limnology, 171
Chengrong Peng, Lang Zhang, Hongjie Qin, D. Li (2014)
Revegetation in the water level fluctuation zone of a reservoir: An ideal measure to reduce the input of nutrients and sedimentEcological Engineering, 71
Juan Wang, Ye-ming You, Zuoxin Tang, Xiaolu Sun, O. Sun (2016)
A comparison of decomposition dynamics among green tree leaves, partially decomposed tree leaf litter and their mixture in a warm temperate forest ecosystemJournal of Forestry Research, 27
Jisong Yang, Jing-shuang Liu, Junbao Yu, Jin-da Wang, Xin-hua Li, Zhigao Sun (2006)
Decomposition and nutrient dynamics of marsh litter in the Sanjiang Plain, Northeast ChinaActa Ecologica Sinica, 26
X Wang, M Gao, F Yang, Y Guo, C Ma (2012)
Litter decomposition and nutrient dynamics of Larix principis-rupprechtii plantations of different agesJournal of Northeast Forestry University, 40
Jian-chao Wang, B. Zhu, Tao Wang, Li-jun Yi (2012)
[Nitrogen and phosphorus release from herbaceous vegetation under simulated inundation experiment of water-level fluctuation zone in the Three Gorges Reservior Area].Huan jing ke xue= Huanjing kexue, 33 4
André Fonseca, I. Bianchini, Cristiane Pimenta, C. Soares, N. Mangiavacchi (2013)
The flow velocity as driving force for decomposition of leaves and twigsHydrobiologia, 703
Yajun Xie, Yonghong Xie, Huayun Xiao, Xin-sheng Chen, Feng Li (2017)
Controls on Litter Decomposition of Emergent Macrophyte in Dongting Lake WetlandsEcosystems, 20
J. Gonçalves, M. Graça, M. Callisto (2007)
Litter decomposition in a Cerrado savannah stream is retarded by leaf toughness, low dissolved nutrients and a low density of shreddersFreshwater Biology, 52
Z. Guan, Ying Zhao, X. Tong (2009)
[Relationships of Syzygium jambos and Dracontomelon duperreanum leaf tannin concentration and leaf litter breakdown with the colonization of benthonic invertebrates].Ying yong sheng tai xue bao = The journal of applied ecology, 20 10
Fan Yang, Yong Wang, Zhulong Chan (2014)
Perspectives on Screening Winter-Flood-Tolerant Woody Species in the Riparian Protection Forests of the Three Gorges ReservoirPLoS ONE, 9
T. Schneider, K. Keiblinger, E. Schmid, Katja Sterflinger-Gleixner, G. Ellersdorfer, B. Roschitzki, Andreas Richter, L. Eberl, S. Zechmeister-Boltenstern, K. Riedel (2012)
Who is who in litter decomposition? Metaproteomics reveals major microbial players and their biogeochemical functionsThe ISME Journal, 6
Yajun Xie, Yonghong Xie, Cong Hu, Xin-sheng Chen, Feng Li (2015)
Interaction between litter quality and simulated water depth on decomposition of two emergent macrophytesJournal of Limnology, 75
Quanfa Zhang, Zhi-Ping Lou (2011)
The environmental changes and mitigation actions in the Three Gorges Reservoir region, ChinaEnvironmental Science & Policy, 14
L. Diepen, S. Frey, Christopher Sthultz, E. Morrison, R. Minocha, A. Pringle (2015)
Changes in litter quality caused by simulated nitrogen deposition reinforce the N-induced suppression of litter decayEcosphere, 6
Xinhou Zhang, C. Song, R. Mao, Gui-sheng Yang, Baoxian Tao, Fuxi Shi, Xiaoyan Zhu, A. Hou (2014)
Litter mass loss and nutrient dynamics of four emergent macrophytes during aerial decomposition in freshwater marshes of the Sanjiang plain, Northeast ChinaPlant and Soil, 385
Elizabeth Wallis, E. Raulings (2011)
Relationship between water regime and hummock-building by Melaleuca ericifolia and Phragmites australis in a brackish wetlandAquatic Botany, 95
Changxiao Li, Z. Zhong, Yanghui Geng, R. Schneider (2010)
Comparative studies on physiological and biochemical adaptation of Taxodium distichum and Taxodium ascendens seedlings to different soil water regimesPlant and Soil, 329
Isabel Fernandes, S. Seena, C. Pascoal, F. Cássio (2014)
Elevated temperature may intensify the positive effects of nutrients on microbial decomposition in streamsFreshwater Biology, 59
S. Fonte, T. Schowalter (2004)
Decomposition of Greenfall vs. Senescent Foliage in a Tropical Forest Ecosystem in Puerto Rico 1Biotropica, 36
A. Bruder, M. Schindler, M. Moretti, M. Gessner (2014)
Litter decomposition in a temperate and a tropical stream: the effects of species mixing, litter quality and shreddersFreshwater Biology, 59
Z Guan, Y Zhao, X Tong (2009)
Relationships of Syzygium jambos and Dracontomelon duperreanum leaf tannin concentration and leaf litter breakdown with the colonization of benthonic invertebratesChin J Appl Ecol, 20
Tomas Bosco, M. Bertiller, A. Carrera (2016)
Combined effects of litter features, UV radiation, and soil water on litter decomposition in denuded areas of the arid Patagonian MontePlant and Soil, 406
T. Jacobson, M. Bustamante, A. Kozovits (2011)
Diversity of shrub tree layer, leaf litter decomposition and N release in a Brazilian Cerrado under N, P and N plus P additions.Environmental pollution, 159 10
M. Graça, Verónica Ferreira, C. Canhoto, A. Encalada, Francisco Guerrero‐Bolaño, K. Wantzen, L. Boyero (2015)
A conceptual model of litter breakdown in low order streamsInternational Review of Hydrobiology, 100
P. Zhang, Xingjun Tian, Xing-bing He, Fu-qiang Song, L. Ren, Ping Jiang (2008)
Effect of litter quality on its decomposition in broadleaf and coniferous forestEuropean Journal of Soil Biology, 44
J. Rincón, A. Covich (2014)
Effects of insect and decapod exclusion and leaf litter species identity on breakdown rates in a tropical headwater stream.Revista de biologia tropical, 62 Suppl 2
Qiang Wang, Xing-zhong Yuan, Hong Liu, Y. Zhang, Z. Cheng, Bailin Li (2012)
EFFECT OF LONG-TERM WINTER FLOODING ON THE VASCULAR FLORA IN THE DRAWDOWN AREA OF THE THREE GEORGES RESERVOIR, CHINAPolish Journal of Ecology, 60
A. Demessie, Bal Singh, R. Lal, L. Strand (2011)
Leaf litter fall and litter decomposition under Eucalyptus and coniferous plantations in Gambo District, southern EthiopiaActa Agriculturae Scandinavica, Section B — Soil & Plant Science, 62
In order to understand the effect of submergence on nutrient release of the reforested tree leaves and assess the environmental risk of leaf decomposition under submergence, the mass loss and nutrient release rates of three reforestation tree species, Taxodium ascendens Brongn, Taxodium distichum (L.) Rich., and Salix matsudana Koidz., at different elevation in the hydro-fluctuation zone of the Three Gorges Dam Reservoir (TGDR) region were tested in situ. Results showed that the initial macroelement contents of the leaves of the three tree species varied among different elevations due to different submergence stresses. All foliar mass loss rates of the three tree species at 165 m a.s.l. were significantly higher than that at 175 m a.s.l. (except that of S. matsudana at 165 m a.s.l.), after 179 days of incubation commenced September 20. After 138 days of incubation commenced October 5, the foliar mass loss rates of the three tree species at 170 m a.s.l. were significantly higher than that at 175 m a.s.l. Moreover, the leaf mass loss rates of S. matsudana were higher than the other two species when compared at the same elevation of the same incubation period. In addition, foliar release rates of N and Ca in T. ascendens, C, N, and Ca in T. distichum as well as Ca in S. matsudana at 165 m a.s.l. after 179 days of incubation and at 170 m a.s.l. after 138 days of incubation were significantly higher than that at 175 m a.s.l., respectively. Leaf mass loss rates of T. ascendens were significantly correlated with its initial leaf K, Ca, and Mg contents. In contrast, leaf mass loss rates of T. distichum had significant correlations with the initial leaf P and K contents, as well as C/P and N/P ratios. However, the mass loss rates of S. matsudana significantly correlated with initial leaf N, P, and Ca contents and C/N, C/P, and N/P ratios. Foliar nutrient release rates, especially the foliar release of C, N, and P of the three tree species, had significant correlations with initial leaf C/P and N/P ratios. Our results suggested that submergence facilitated the decomposition and nutrient release rates of the leaves of the three woody species, especially the broad leaves of S. matsudana, which may potentially cause secondary pollution to the water body of the TGDR. Thus, we suggested that a sustainable harvest of leaves of the reforested forest stands prior to submergence should be considered in the hydro-fluctuation zone so as to protect the water quality of the TGDR.
Environmental Science and Pollution Research – Springer Journals
Published: Jun 4, 2018
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