|
NO. |
Authors |
Title |
Journal |
|
1 |
Tong X, Wang R, Chen XY* |
Expansion or invasion? a response to Nackley et al.pdf
|
Trends in Ecology & Evolution, 2018, 33(4): 234-235 |
|
2 |
Zhou XH*, Xu X, Zhou GY, Luo YQ |
Temperature sensitivity of soil organic carbon decomposition increased with mean carbon residence time: a field incubation combined with data assimilation.pdf | Global Change Biology, 2018, 24 (2) :810-822 |
|
3 |
Hu ZH, Michaletz ST, Johnson DJ, McDowell NG, Huang ZQ, Zhou XH*, Xu CG |
Traits drive global wood decomposition rates more than climate.pdf |
Global Change Biology,
2018, 24(11): 5259-5269 |
|
4 |
Zhou GY, Zhou XH, Nie YY, Bai SH, Zhou LY, Shao JJ, Cheng WS, Wang JW, Hu FQ, Fu YL* |
Drought‐induced changes in root biomass largely result from altered root morphological traits: evidence from a synthesis of global field trials.pdf |
Plant Cell and Environment,
2018, 41(11): 2589-2599 |
| 5 |
Ali A, Yan ER* |
Consequences of phylogenetic conservativeness and functional trait similarity on aboveground biomass vary across subtropical forest strata.pdf |
Forest Ecology and
Management, 2018, 429: 28-35 |
| 6 |
Ali A, Lohbeck M, Yan
ER* |
Forest strata-dependent functional evenness explains whole-community aboveground biomass through opposing mechanisms.pdf |
Forest Ecology and
Management , 2018, 424: 439-447 |
| 7 |
Gao Q, Bai E, Wang J, Zheng
Z, Xia J, You W |
Effects of litter manipulation on soil respiration under short-term nitrogen addition in a subtropical evergreen forest.pdf |
Forest Ecology and
Management, 2018, 429: 77-83 |
| 8 |
Bu XL, Gu XY, Zhou XQ*,
Zhang MY, Guo ZY, Zhang J, Zhou XH, Chen XY, Wang XH |
Extremely drought slightly decreased soil labile organic C and N contents and altered microbial community structure in a subtropical evergreen forest.pdf |
Forest Ecology and
Management, 2018, 429: 18-27 |
| 9 |
Biswas SR*, Biswas PL, Limon SH, Yan ER, Xua MS, Khan MSI |
Plant invasion in mangrove forests worldwide.pdf |
Forest Ecology and
Management, 2018, 429: 480–492 |
|
10 |
Huang K, Xia J*,
Wang YP, Ahlstrom A, Chen J, Cook R, Cui E, Fang Y, Fisher J, Huntzinger D, Li
Z, Michalak A, Qiao Y, Schaefer K, Schwalm C, Wang J, Wei Y, Xu X, Yan L, Bian
C, Luo Y |
Enhanced peak growth of global vegetation and its key mechnisms.pdf |
Nature Ecology and
Evolution, 2018, 10.1038/s41559-018-0714-0 |
| 11 |
Zhang J*, Qian H, Girardello M, Pellissier V, Nielsen SE,
Svenning JC |
Trophic interactions among vertebrate guilds and plants shape global patterns in species diversity.pdf |
Proceedings of the Royal
Society B: Biological Sciences, 285: 20180949 |
| 12 |
Li Z, Xia J*, Ahlstrom A, Rinke A, Koven C, Hayes DJ, Ji D, Zhang
G, Krinner G, Chen G, Dong J, Liang J, Moore JC, Jiang L, Yan L, Ciais P, Peng S,
Wang YP, Xiao X, Shi Z, McGuire AD, Luo Y |
Non-uniform seasonal warming regulates vegetation greening and atmospheric CO2 amplification over northern lands.pdf |
Environmental Research Letters, 2018, 13: 124008 |
| 13 |
Du Z, Weng E, Jiang L, Luo
Y, Xia J*, Zhou X* |
Carbon-nitrogen coupling under three schemes of model representation: a traceability analysis.pdf |
Geoscientific Model
Development, 2018, 11: 4399-4416 |
| 14 |
He Y, Zhou X*, Cheng W,
Zhou L, Zhang G, Zhou G, Liu R, Shao J, Zhu K, Cheng W |
Ecosystems, 2018, DOI:
10.1007/s10021-018-0308-3 |
|
| 15 |
Ali A, Yan ER* |
The mediation roles of intraspecific and interspecific functional trait diversity for linking response of aboveground biomass to species richness across forest strata in a subtropical forest.pdf |
Ecological Indicators,
2018, 85: 493-501 |
| 16 |
He D, Shekhar R. Biswas |
Negative relationship between interspecific spatial association and trait dissimilarity.pdf |
Oikos, 2018, doi:
10.1111/oik.05876 |
| 17 |
He D, Yan ER* |
Size-dependent variation in individual traits and trait scaling relationships within a shade-tolerant evergreen species.pdf |
American Journal of Botany,
2018, 105(7): 1-10 |
| 18 |
Yan ER* , Zhou LL, Chen HYH, Wang XH, Liu XY |
Linking intraspecific trait variability and spatial patterns of subtropical trees.pdf |
Oecologia, 2018, 186(3),
793-803 |
| 19 |
Avi BM, Yang QS, Shen
GC*, Wang XH |
Tree species co-occurrence patterns change across grains: insights from a subtropical forest.pdf |
Ecosphere, 2018, 9: e02213 |
| 20 |
Zhu RL*, Shu L |
The systematic position of Microlejeunea ocellata (Marchantiophyta: Lejeuneaceae), an extraordinary species endemic to Australia and New Zealand.pdf |
The Bryologist, 2018,
121(2): 158-165 |
| 21 |
Zhu RL*, Shu L, He Q, Wei YM |
Soella (Marchantiophyta: Lejeuneaceae), a new genus from China and Japan .pdf | The Bryologist, 2018, 121(3):324-339 |
| 22 |
Zhu RL*, Shu L, Bastos CJP,
Bastos SBV |
Yanoella (Marchantiophyta: Lejeuneaceae), a new genus from the Brazilian Atlantic Forest .pdf | The Bryologist, 2018, 121(3): 264-274 |
| 23 |
Jiang K, Tsang PKE, Xu NN, Chen
XY* |
High genetic diversity and strong differentiation in dramatically fluctuating populations of Zostera japonica(Zosteraceae).pdf | Journal of Plant Ecology, 2018, 11: 789‒797 |
| 24 |
Wang R, Yang CH, Ding YY, Tong X, Chen XY* |
Weak genetic divergence suggests extensive gene flow at the northeastern range limit of a dioecious Ficus species.pdf | Acta Oecologica, 2018, 90: 12-17 |
| 25 |
Zhang L F, Zhang Z, Wang
XM, Gao HY, Tian HZ, Li HQ* |
Molecular phylogeny of the Ficus auriculata complex (Moraceae).pdf
|
Phytotaxa, 2018, 362(1): 39-54 |
| 26 |
Promma C, Zhang LN, Shu L,
Chantanaorrapint S, Renner MAM, Zhu RL* |
Radula deflexilobula (Radulaceae, Marchantiophyta) from Thailand, a new species based on morphological and molecular data | Cryptogamie, Bryologie, 2018, 39(4): 481-497 |
| 27 |
Zhu RL*, Shu L, Mohamed H |
Vitalianthus lamyii (Marchantiophyta: Lejeuneaceae), a new species from the lowland rainforests of Brunei Darussalam.pdf | Cryptogamie, Bryologie, 2018, 39(2): 293-299 |
| 28 |
Shen GC*, Tan SS, Yang
QS, Sun XY, Sun XW, Wang
XH* |
The prevalence of species-habitat association is not adequate for justifying the niche differentiation hypothesis.pdf | Community ecology, 2018, 19: 45–52 |
| 29 |
Wang Q, He N*, Xu L, Zhou
X |
Microbial properties regulate spatial variation in the differences in heterotrophic respiration and its temperature sensitivity between primary and secondary forests from tropical to cold-temperate zones.pdf | Agricultural and Forest Meteorology, 2018, 262: 81-88 |
| 30 |
Wang Q, He NP*,
Liu Y, Li ML, Xu L, Zhou XH |
Important interaction of chemicals, microbial biomass and dissolved substrates in the diel hysteresis loop of soil heterotrophic respiration.pdf | Plant Soil, 2018, 428: 279-290 |
| 31 |
Zhao K, Wang LZ, Riseng
C, Wehrly K, Pane YD, Song K, Da LJ,
Pang WT, You QM, Tian H, Liu SQ, Wang QX* |
Factors determining zooplankton assemblage difference among a man-made lake, connecting canals, and the water-origin river.pdf | Ecological Indicators, 2018,84: 488-496 |
| 32 |
Deng J, Auchtung JM,
Konstantinidis KT, Caro-Quintero A, Brettar I, Hofle M, Tiedje JM |
Divergence in gene regulation contributes to sympatric speciation of Shewanella baltica strains.pdf | Applied and Environmental Microbiology, 84(4): e02015-17 |
| 33 |
Zhou XQ, Xu CY, Bai SH, Xu ZH, Smaill SJ*, Clinton PW, Chen
CR |
Technical note: manipulating interactions between plant stress responses and soil methane oxidation rates.pdf | Biogeosciences, 2018, 15: 4125-4129 |
| 34 |
Qian K, Bi XF, Shu L, Zhu RL* |
Porella longifolia (Steph.) S.Hatt. and Porella densifolia var. robusta (Steph.) S.Hatt. (Porellaceae, Marchantiophyta) excluded from the liverwort flora of China.pdf | Phytotaxa, 2018, 350 (2): 182-186 |
| 35 |
Yu HB, Deane DC, Sui XH*,
Fang SQ, Chua CJ, Liu Yu*, He FL |
Testing multiple hypotheses for the high endemic plant diversity of the Tibetan Plateau.pdf | Global Ecology Biogeographyr, 2018, DOI: 10.1111/geb.12827 |
| 36 |
Lei L, Xia J*,
Li X, Huang K, Zhang A, Chen S, Weng E, Luo Y, Wan S* |
Water response of ecosystem respiration regulates future projection of net ecosystem productivity in a semiarid grassland.pdf | Agricultural and Forest Meteorology, 2018, 252: 175-191 |
| 37 |
Qian H, Zhang J*,
Hawkins BA |
Mean family age of angiosperm tree communities and its climatic correlates along elevational and latitudinal gradients in eastern North America.pdf | Journal of Biogeography, 2018, 45: 259-268 |
| 38 |
Sui X, Mao L, Liu Y, He F* |
Mapping relative extinction risk for biodiversity conservation.pdf | Biological Conservation, 2018, 226: 168-176 |
| 39 |
Compton SG, Chen XY,
ChenY, Hatcher MB, Peng YQ, Quinnell RJ, Rodriguez LJ, Yu H, Ouyang A, WeiFL,
Cai ZT, Wang R* |
Host-parasitoid relationships within figs of an invasive fig tree: a fig wasp community structured by gall size.pdf | Insect Conservation and Diversity, 2018, 11(4): 341-351 |
| 40 |
Ye W, Zhu RL* |
Gaolejeunea, a new genus from China and new member of subtribe Echinolejeuneinae (Lejeuneaceae, Marchantiophyta).pdf | The Bryologist, 2018, 121(1): 41–48 |
| 41 |
Wei YM, Tang QM, Zhu RL* |
Lejeunea streimannii (Lejeuneaceae, Marchantiophyta), a remarkable new species with robust stems and 5(or 6)-keeled perianths from Papua New Guinea.pdf | Phytotaxa, 2018, 338 (2): 189-194 |
| 42 |
Huang Y, (62 authors), Chen
XY |
Impacts of species richness on productivity in a large-scale subtropical forest experiment .pdf | Science, 2018, 362: 80-83 |
| 43 |
Tang CQ, (43 authors) , Kun
Song |
Identifying long-term stable refugia for relict plant species in East Asia.pdf | Nature Communications, 2018, 9: 4488 |
| 44 |
Kai Zhu*, Zhang J, Shuli Niu, Chengjin Chu, Yiqi Luo |
Limits to growth of forest biomass carbon sink under climate change .pdf | Nature Communications, 2018, 9: 2709 |
| 45 |
Huang YY, Lu XJ, Shi Z, Lawrence
D, Koven CD, Xia JY, Du ZG, Kluzek E, Luo YQ |
Matrix approach to land carbon cycle modeling: a case study with the community land model .pdf | Global Change Biology, 2018, 24: 1394–1404 |
| 46 |
Liang J*, Xia J, Shi
Z, Jiang L, Ma S, Lu X, Mauritz M, Natali SM, Pegoraro E, Ryan Penton C, Plaza
C, Salmon VG, Celis G, Cole JR, Konstantinidis KT, Tiedje JM, Zhou J, Schuur
EAG, Luo Y* |
Biotic responses buffer warming-induced soil organic carbon loss in Arctic tundra .pdf | Global Change Biology, 2018, 24(10): 4946-4959 |
| 47 |
Chen J*, Luo Y,
Garcia-Palacios P, Cao J*, Dacal M, Zhou X, Li J*, Xia J,
Niu S, Yang H, Shelton S, Guo W, van Groenigen KJ |
Differential responses of carbon-degrading enzyme activities to warming: implications for soil respiration .pdf | Global Change Biology, 2018, 24 (10): 4816-4826 |
| 48 |
Hu Z*, Shi H, Cheng K, Wang
YP, Piao S, Li Y, Zhang L, Xia J, Zhou L, Yuan W, Running S, Li L,
Hao Y, He N, Yu Q, Yu G |
Joint structural and physiological control on the inter-annual variation in productivity in a temperate grassland: a data-model comparison.pdf | Global Change Biology, 2018 , 24(3), DOI: 10.1111/gcb.14274 |
| 49 |
Chen J*, Luo Y, Xia J,
Zhou X, Niu S, Shelton S, Guo W, Liu S, Dai W, Cao J* |
Divergent responses of ecosystem respiration components to livestock exclusion on the Qinghai Tibetan Plateau.pdf | Land Degradation & Development, 2018, 29:1726-1737 |
| 50 |
Wang J, Sun J, Xia
J, He N, Li M, Niu S* |
Soil and vegetation carbon turnover times from tropical to boreal forests .pdf | Functional Ecology, 2018, 32: 71-82 |
| 51 |
Chen Z, Xu Y, He Y, Zhou
X, Fan J, Yu H, Ding W* |
Nitrogen fertilization stimulated soil heterotrophic but not autotrophic respiration in cropland soils: a greater role of organic over inorganic fertilizer .pdf | Soil Biology and Biochemistry, 2018, 116: 253-264 |
| 52 |
Chu X, Han G*, Xing
Q, Xia J, Sun B, Yu J, Li D |
Dual effect of precipitation redistribution on net ecosystem CO2 exchange of a coastal wetland in the Yellow River Delta .pdf | Agricultural and Forest Meteorology, 249: 286-296 |
| 53 |
Han G*, Sun B, Chu X, Xing
Q, Song W, Xia J |
Precipitation events reduce soil respiration in a coastal wetland based on four-year continuous field measurements.pdf | Agricultural and Forest Meteorology, 2018, 256-257: 292-303 |
| 54 |
Liang J*, Zhou Z, Huo C,
Shi Z, Cole J, Huang L, Konstantinidis K, Li X, Liu B, Luo Z, Penton CR, Schuur
E, Tiedje J, Wang Y, Wu L, Xia J, Zhou J, Luo Y* |
More replenishment than priming loss of soil organic carbon with additional carbon input.pdf | Nature Communications, 2018, 9: 3175 |
| 55 |
Chen J, Luo YQ*, van Groenigen KJ, Hungate BA, Cao JJ, Zhou
XH, Wang RW |
A keystone microbial enzyme for nitrogen control of soil carbon storage.pdf | Science Advances, 2018, 4(8): eaaq1689 |
| 56 |
He D, Chen YF, Zhao KN, Cornelissen JHC, Chu CJ* |
Intra- and interspecific trait variations reveal functional relationships between specific leaf area and soil niche within a subtropical forest.pdf | Annals of Botany, 2018, 21: 1173-1182 |
| 57 |
Zhong L, Wang SP, Xu XL,
Wang YF, Rui YC, Zhou XQ, Shen QH, Wang JZ, Jiang LL, Luo CY, Gu TB, Ma
WC*, Chen GY* |
Fungi regulate he response of the N2O production process to warming and grazing in a Tibetan grassland.pdf | Biogeosciences, 2018, 15: 4447-4457 |
| 58 |
Cheng HQ*, Chen JY, Chen
ZJ, Ruan RL, Xu GQ, Zeng G, Zhu JR, Dai ZJ, Chen XY, Gu SH, Zhang XL,
Wang HM |
Mapping sea level rise behavior in an estuarine delta system: a case study along the Shanghai coast.pdf | Engineering, 2018, 4(1): 156-163 |
| 59 |
Zhong L*, Li FY, Wang YF, Zhou XQ, Zhou ST, Gong XL, Bai YF |
Mowing and topography effects on microorganisms and nitrogen transformation processes responsible for nitrous oxide emissions in semi-arid grassland of Inner Mongolia .pdf | Journal of Soils and Sediments, 2018, 18(3): 929-935 |
| 60 |
Feng J, Zhao K, He D,
Fang S, Lee T, Chu C*, He F |
Comparing shade tolerance measures of woody forest species.pdf | PeerJ, 2018, 6: e5736 |
| 61 |
Zhang W, Liang C, Liu J, Si
X, Feng G* |
Species richness, phylogenetic and functional structure of bird communities in Chinese university campuses are associated with divergent variables.pdf | Urban Ecosystems, 2018, 21: 1213–1225 |
| 62 |
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