J Plant Ecol ›› 2017, Vol. 10 ›› Issue (1): 91-110 .DOI: 10.1093/jpe/rtw107
Special Issue: 生物多样性与生态系统功能
• Research Articles • Previous Articles Next Articles
Bernhard Schmid1,*, Martin Baruffol1, Zhiheng Wang1,2 and Pascal A. Niklaus1
Received:
2016-06-12
Revised:
2016-09-17
Accepted:
2016-09-26
Published:
2017-02-04
Contact:
Schmid, Bernhard
Supported by:
Bernhard Schmid, Martin Baruffol, Zhiheng Wang, Pascal A. Niklaus. A guide to analyzing biodiversity experiments[J]. J Plant Ecol, 2017, 10(1): 91-110.
Balvanera P Pfisterer AB Buchmann N et al. (2006) Quantifying the evidence for biodiversity effects on ecosystem functioning and services. Ecol Lett 9:1146-C56.<br /> | |
Bruelheide H B?hnke M Both S et al. (2011) Community assembly during secondary forest succession in a Chinese subtropical forest. Ecol Monogr 81:25-C41.<br /> | |
Bruelheide H Nadrowski K Assmann T et al. (2014) Designing forest biodiversity experiments: general considerations illustrated by a new large experiment in subtropical China. Methods Ecol Evol 5:74-C89.<br /> | |
Bu WS Schmid B Liu XJ et al. (2017). Interspecific and intraspecific variation in specific root length drives aboveground biodiversity effects in young experimental forest stands. J Plant Ecol 10:158-C69.<br /> | |
Burnham KP Anderson DR (2002) Model Selection and Multimodel Inference . New York, NY: Springer-Verlag.<br /> | |
Butler DG Cullis BR Gilmour AR et al. (2009) ASReml-R Reference Manual . Queensland, Australia: Queensland Government, Department of Primary Industries and Fisheries.<br /> | |
Clark JS Gelfand AE (2006) A future for models and data in environmental science. Trends Ecol Evol 21:375-C80.<br /> | |
Cohen J (2002) Statistical Power Analysis for the Behavioral Sciences . Mahwah, NJ: Lawrence Erlbaum Associates.<br /> | |
Dimitrakopoulos PG Schmid B (2004) Positive biodiversity effects increase linearly with biotope space. Ecol Lett 7:574-C83.<br /> | |
Driscoll MF Boror CM (2000) Sums of squares and expected means squares in SAS. Qual Reliab Engng Int 16:423-C33.<br /> | |
Ebeling A Pompe S Baade J et al. (2014) A trait-based experimental approach to understand the mechanisms underlying biodiversity-Cecosystem functioning relationships. Basic Appl Ecol 15: 229-C40.<br /> | |
Gelman A (2005) Analysis of variance--why it is more important than ever. Ann Stat 33:1-C53.<br /> | |
Gilmour AR Gogel BJ Cullis BR et al. (2009) ASReml User Guide Release 3.0.www.vsni.co.uk (10 October 2016, date last accessed).<br /> | |
Green BF Tukey JW (1960) Complex analysis of variance: general problems. Psychometrika 25:127-C52.<br /> | |
Hahn CZ Niklaus PA Bruelheide H et al. (2017). Opposing intraspecific vs. interspecific diversity effects on herbivory and growth in subtropical experimental tree assemblages. J Plant Ecol 10:242-C51.<br /> | |
Hector A Bell T Hautier Y et al. (2011) BUGS in the analysis of biodiversity experiments: species richness and composition are of similar importance for grassland productivity. PLOS ONE 6:e17434.<br /> | |
Hector A Loreau M Schmid B ; BIODEPTH Project (2002) Biodiversity and the functioning of grassland ecosystems: multi-site comparisons. In Kinzig APPacala SWTilman D (eds). Functional Consequences of Biodiversity: Empirical Progress and Theoretical Extensions . Princeton, NJ: Princeton University Press, 71-C95.<br /> | |
Hector A Schmid B Beierkuhnlein C et al. (1999) Plant diversity and productivity experiments in European grasslands. Science 286:1123-C27.<br /> | |
Hector A von Felten S Schmid B (2010) Analysis of variance with unbalanced data: an update for ecology & evolution. J Anim Ecol 79:308-C16.<br /> | |
Kirwan L Connolly J Finn JA et al. (2009) Diversity-interaction modeling: estimating contributions of species identities and interactions to ecosystem function. Ecology 90:2032-C8.<br /> | |
Langsrud O (2003) ANOVA for unbalanced data: use type II instead of type III sum of squares. Stat & Comp 13:163-C7.<br /> | |
Le Roux X Schmid B Poly F et al. (2013) Soil environmental conditions and microbial build-up mediate the effect of plant diversity on soil nitrifying and denitrifying enzyme activfities in temperate grasslands. PLOS ONE 8:e61069.<br /> | |
Li SS Tong YW Wang ZW (2017). Species and genetic diversity affect leaf litter decomposition in subtropical broadleaved forest in southern China. J Plant Ecol10:232-C41.<br /> | |
McCullagh P Nelder JA (1989) Generalized Linear Models . London, UK: Chapman and Hall.<br /> | |
Murtaugh PA (2014) In defence of P values. Ecology 95:611-C7.<br /> | |
Naeem S Thompson LJ Lawler SP et al. (1994) Declining biodiversity can alter the performance of ecosystems. Nature 368:734-C7.<br /> | |
Nelder JA (1977) A reformulation of linear models. J R Statist Soc A 140:48-C63.<br /> | |
Nelder JA (1994) The statistics of linear-models: back to basics. Stat & Comp 4:221-C34.<br /> | |
Nelder JA Lane PW (1995) The computer analysis of factorial experiments: in memoriam--Frank Yates. Amer Statist 49:382-C5.<br /> | |
Niklaus PA Leadley PW Schmid B et al. (2001) A long-term field study on biodiversity x elevated CO2 interactions in grassland. Ecol Monogr 71:341-C56.<br /> | |
Ogle K Barber JJ (2008) Bayesian data-Cmodel integration in plant physiology and ecosystem ecology. Prog Bot 69:281-C311.<br /> | |
Payne RW Lane PW Digby PGN et al. (1993) Genstat 5, Release 3 Reference Manual . Oxford: Clarendon Press.<br /> | |
Peng SY Schmid B Niklaus PA (2017). Leaf area increases with species richness in young experimental stands of subtropical trees. J Plant Ecol 10:128-C35.<br /> | |
Qian AA Shen Z (2007) Ecological applications of mutlilevel analysis of variance. Ecology 88:2489-C95.<br /> | |
Rockstr?m J Steffen W Noone K et al. (2009) A safe operating space for humanity. Nature 461:472-C5.<br /> | |
Roscher C Schumacher J Baade J et al. (2004) The role of biodiversity for element cycling and trophic interactions: an experimental approach in a grassland community. Basic Appl Ecol 5:107-C21.<br /> | |
Rosenthal R Rosnow RL (1985) Contrast Analysis: Focused Comparisons in the Analysis of Variance . Cambridge, UK: Cambridge University Press,.<br /> | |
Schl?pfer F Pfisterer BA Schmid B (2005) Non-random species extinction and plant production: implications for ecosystem functioning. J Appl Ecol 42: 13-C24.<br /> | |
Schmid B Hector A (2004) The value of biodiversity experiments. Basic Appl Ecol 5:535-C42.<br /> | |
Schmid B Hector A Huston M et al. (2002) The design and analysis of biodiversity experiments. In Loreau MNaeem SInchausti P (eds). Biodiversity and Ecosystem Functioning: Synthesis and Perspectives . Oxford: Oxford University Press, 61-C75.<br /> | |
Schmitz M Flynn DBF Mwangi PN et al. (2013) Consistent effects of biodiversity on ecosystem functioning under varying density and evenness. Folia Geobotanica 48:335-C53.<br /> | |
Searle SR (1971) Linear Models . New York, NY: John Wiley & Sons.<br /> | |
Snedecor GW Cochran WG (1989) Statistical Methods . Ames, IA: Iowa State University Press.<br /> | |
Sun ZK Liu XJ Schmid B et al. . (2017). Positive effects of tree species richness on fine-root production in a subtropical forest in SE-China. J Plant Ecol 10:146-C57.<br /> | |
Tilman D Wedin D Knops J (1996) Productivity and sustainability influenced by biodiversity in grassland ecosystems. Nature 379:718-C20.<br /> | |
Van Kleunen M Stephan MA Schmid B (2006) [CO2]- and density-dependent competition between grassland species. Global Change Biol 12:2175-C86.<br /> | |
Venables WN (2000) Exegeses on linear models . In: Paper presented at the SPlus User's Conference, Washington DC, 8-C9 October 1998.<br /> | |
Wilkinson GN Rogers CE (1973) Symbolic description of factorial models for analysis of variance. Appl Stat 22:392-C9.<br /> | |
Zeng XQ Durka W Fischer M (2017). Species-specific effects of genetic diversity and species diversity of experimental communities on early tree performance. J Plant Ecol 10: 252-C8.<br /> | |
Zuur AF Ieno EN (2016) A protocol for for data exploration to avoid common statistical problems. Methods Ecol Evol 1:3-C14.<br /> | |
Zuur AF Ieno EN Elphick CS (2010) A protocol for conducting and presenting results of regression-type analyses. Methods Ecol Evol 7:636-C45.<br /> | |
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