@article{fdi:010095509,
  title = {{A} global database on land use and management change effects on soil {KM}n{O}4-oxidisable organic carbon ({POXC})},
  author = {{C}h{\'e}ron-{B}essou, {C}. and {B}eillouin, {D}. and {T}houmazeau, {A}. and {C}hapuis {L}ardy, {L}ydie and {C}hevallier, {T}iphaine and {D}emenois, {J}. and {N}elson, {P}. {N}.},
  editor = {},
  language = {{ENG}},
  abstract = {{S}oil carbon transformation is vital for ecosystem functions like food production and climate regulation. {W}hile soil organic carbon is a key soil health indicator, its sensitivity to management changes is debated. {A}lternative indicators, such as permanganate-oxidisable carbon ({POXC}), are being explored. {T}his database compiles 10,068 comparisons of soil {POXC} content from 284 peer-reviewed studies published up to 2023, covering 45 countries and 63 land use types, including arable land, grassland, agroforestry, and forests. {M}ost studies focused on arable land (n = 7,809), examining input changes (n > 500) and tillage intensity (n > 200). {T}he most studied land-use changes were grassland conversion to arable land (n = 324) and vice versa (n = 261). {T}he dataset includes rich metadata on geographical context, soil types, key properties (p{H}, clay content), {POXC} protocols, and data quality scores. {T}his resource supports scientific and policy discussions on {POXC}'s potential as a practical indicator for improving land use and soil health management.},
  keywords = {{MONDE}},
  booktitle = {},
  journal = {{S}cientific {D}ata},
  volume = {12},
  numero = {1},
  pages = {1697 [11 p.]},
  year = {2025},
  DOI = {10.1038/s41597-025-05976-9},
  URL = {https://www.documentation.ird.fr/hor/fdi:010095509},
}