@article{fdi:010092920,
  title = {{S}oil microbial recovery to the rubber tree replanting process in {I}vory {C}oast},
  author = {{K}ouakou, {A}. {K}. and {C}ollart, {P}. and {P}erron, {T}. and {K}olo, {Y}. and {G}ay, {F}. and {B}rauman, {A}lain and {B}runel, {C}.},
  editor = {},
  language = {{ENG}},
  abstract = {{T}he resistance and resilience of soil microbial communities to an environmental disturbance are poorly documented, due to the lack on onfield diachronic experiments, limiting our ability to design adapted agroecological practices. {T}his is especially true in rubber plantations, one of the most planted tree in tropical areas. {W}e aimed to understand (1) how soil disturbances occurring during the rubber replanting phase affect the soil microbiome, (2) how agricultural practices combining legumes cover crops and tree logging residues shape community resilience and (3) how microbial responses vary across different edaphic contexts. {I}n two plantations with distinct soil properties in {I}vory {C}oast, soil microbial communities were surveyed every 6 months for 24 months after soil perturbation. {C}ommunity structure, functioning and networks were described based on a 16{S}/18{S} r{RNA} gene investigation. {P}rokaryotes were generally more resistant to soil perturbation than microeukaryote communities. {P}rokaryotic resilience dynamics were faster than those of microeukaryotes, the latter being deeply modulated by cover treatments. {T}hese specific dynamics were exacerbated in the sandy site. {C}o-occurrence network modelling provided useful insights into microbial resilience trajectories. {W}e argue that this tool should be more widely used to describe microbial community dynamics. {P}ractices involving a combination of logging residues and legume cover crops have shown beneficial effects on the community resilience in the sandy site and appears as promising agroecological practices. {H}owever, the major influence of soil texture warns of the need to consider pedological context when designing pertinent agroecological practices.},
  keywords = {{L}ogging residues ; {M}icrobial communities ; {R}esilience ; {R}ubber plantations ; {S}oil functioning ; {COTE} {D}'{IVOIRE}},
  booktitle = {},
  journal = {{M}icrobial {E}cology},
  volume = {88},
  numero = {1},
  pages = {13 [19 p.]},
  ISSN = {0095-3628},
  year = {2025},
  DOI = {10.1007/s00248-025-02506-3},
  URL = {https://www.documentation.ird.fr/hor/fdi:010092920},
}