[1] | M. Chauvat, J. Trap, G. Perez, P. Delporte, M. Aubert (In press). Assemblages of Collembola across a 130-year chronosequence of beech forest. Soil Organisms. |
[2] | M. Chauvat, D. Titsch, A.S. Zaytsev, V. Wolters (2011). Changes in soil faunal assemblages during conversion from pure to mixed forest stands. For Ecol Manage. 262:317-324. |
[3] | J. Trap, F. Bureau, A. Brêthes, B. Jabiol, J.F. Ponge, M. Chauvat, T. Decaëns, M. Aubert (2011). Does moder development along a pure beech (Fagus sylvatica L.) chronosequence result from changes in litter production or in decomposition rates? Soil Biol Biochem. 43:1490-1497 |
[4] | H. Dahms, S. Mayr, K. Birkhofer, M. Chauvat, E. Melichnova, V. Wolters, J. Dauber (2010). Contrasting diversity patterns of epigeic arthropods between grasslands of high and low agronomic potential. Basic and Applied Ecology 11:6-14. |
[5] | M. Hedde, F. Bureau, M. Chauvat, T. Decaëns (2010). Mechanisms responsible for diversity-leaf degradation relationship within litter invertebrate experimental assemblages. Basic and Applied Ecology 11:35-44. |
[6] | M. Chauvat, A.S. Zaytsev, E. Gabriel, V. Wolters (2009). How do soil fauna and soil microbiota respond to beech forest growth? Current Zoology 55:272-278. |
[7] | M. Chauvat, J.F. Ponge, V. Wolters (2007). Humus structure during a spruce forest rotation: Quantitative changes and relationship to soil biota. Eur J Soil Science 58:625-631. |
[8] | M. Chauvat, J. Dauber, V. Wolters (2007). Response of collembolan communities to land-use change and grassland succession. Ecography 30:183-192. |
[9] | L. Caner, B. Zeller, E Dambrine, J.F. Ponge, M. Chauvat, C. Llanque (2004) Origin of the nitrogen assimilated by soil fauna living in decomposing beech litter. Soil Biol Biochem 36, 1861-1872. |
[10] | M. Chauvat, A.S. Zaitsev, V. Wolters (2003). Successional changes in Collembola and soil microbiota during forest rotation. Oecologia 137:269-276. |