Carbon management Index under different land uses of Conoor region of Western ghats in Tamil Nadu

The increased land-use change (LUC) from native lands to other land use at the Conoor region of western ghats in Tamil Nadu has severely declined soil carbon concentration.  Therefore to quantify this decline, Carbon Management Index (CMI) was worked out under major land uses {(Forest (FOR), croplan...

Full description

Saved in:
Bibliographic Details
Published inJournal of applied and natural science Vol. 14; no. 3; pp. 931 - 937
Main Authors Muthumani, Jagadesh, Duraisamy, Selvi, Subramanium, Thiyageshwari, Thangavel, Kalaiselvi, Lourdusamy, Keisar, Ramalingam, Kumaraperumal
Format Journal Article
LanguageEnglish
Published Haridwar Applied and Natural Science Foundation 2022
Subjects
Agricultural land
Biodiversity
Carbon
Crop moisture index
Lability
Land use
Organic carbon
Pools
Refuse as fuel
Soil surfaces
Soils
Tea
Total organic carbon
Tamil Nadu India
India
Online AccessGet full text

Cover

More Information
Summary:The increased land-use change (LUC) from native lands to other land use at the Conoor region of western ghats in Tamil Nadu has severely declined soil carbon concentration.  Therefore to quantify this decline, Carbon Management Index (CMI) was worked out under major land uses {(Forest (FOR), cropland (CRP), tea plantation (TEA)} using total organic carbon (TOC) and carbon pools under varying degrees of lability {a) NLC (non-labile carbon) b) VLC (very labile carbon) c) LC (labile carbon) d) LLC (less labile carbon)}. Results portray that the carbon pools were significantly (p < 0.05) higher in FOR than in TEA and CRP. The contribution of active pools {(very labile carbon (VLC) and labile carbon (LC)} towards TOC was higher in TEA and CRP, whereas in FOR, the passive pool {(less labile carbon (LLC) and non-labile carbon (NLC)} was higher. TOC (0-45 cm) was concentrated on the surface soils of FOR (32.88 g kg-1), CRP (11.87 g kg-1) and TEA (18.84 g kg-1) and it gradually declined with the increase in depth. The decline in TOC was maximum between 0 – 15 and 15 – 30 cm depth in CRP (30.62%) and FOR (22.17%), whereas it was maximum (37.16%) between 15 -30 and 30 -45 cm depth in TEA. Therefore, LUC spotlights the degradation of carbon pools and its extent was quantified using the carbon management index (CMI). The CMI (0 – 45 cm) recorded at CRP (12.93) and TEA (32.62) signals the need for an implementation of carbon management strategies at Conoor to keep the soils alive and protect biodiversity.
ISSN:0974-9411
2231-5209
DOI:10.31018/jans.v14i3.3662