Comparative analysis of carbon and nutrient pools in soils of selected woody ecosystems of central Kerala
By: Veena Prasad.
Contributor(s): Kunhamu T K (Guide).
Material type:
BookPublisher: Vellanikkara Academy of Climate Change Education and Research 2016Description: 95.Subject(s): Climate Change Education and ResearchDDC classification: 551.6 Online resources: Click here to access online Dissertation note: BSc-MSc (Integrated) Abstract: Present study entitled “Comparative analysis of carbon and nutrient stocks in
soils of selected woody ecosystems of central Kerala, India” was carried out at the
Academy of Climate Change Education and Research, Kerala Agricultural University,
Vellanikkara, Thrissur during 2015-2016.
The study showed that the carbon and nutrient stocks were significantly
influenced by the treatments. Soil organic carbon is significantly different in each
plantation and was significantly higher than corresponding contiguous treeless soils (p
< 0.005). Also there was significant reduction in depth. Carbon stock was higher for
mahogany plantation (116.01 Mg C ha-1) followed by homestead (105.41 Mg C ha-1)
and teak (103Mg C ha-1). Lower carbon stock was found for mango (76.08Mg C ha-1)
and acacia (75.19 Mg C ha-1). Carbon stock for each plantation was significantly
higher than contiguous open plot. Similarly highest nitrogen and potassium stock was
recorded for mahogany plantation (53.61 Mg N ha-1 and 1030.6 Kg K ha-1) which
were significantly different from contiguous open plot. Nitrogen stocks were lower
for acacia (26.77 Mg N ha-1) and mango (26.77 Mg N ha-1) but are significantly higher
from treeless condition. Nitrogen stock in homestead (30.17 Mg N ha-1) and teak
(38.29 Mg N ha-1) was higher than acacia and mango but lower than mahogany.
Available phosphorous was lower in all woody ecosystems other than homestead
(154.56 Kg P ha-1) with significant reduction across depth.
The results of the present study revealed that soil organic and nutrient stock
varied significantly with woody ecosystems and slow growing species as well as
multi-strata ecosystem enrich soil with carbon and nutrient better than fast growing
species like acacia. Also is significantly higher than treeless condition. Enhancing
tree cover is thus an efficient method to mitigate global warming. Hence choice of the
species and their management conditions are important considerations while designing
plantation forestry programs particularly when their carbon sequestration and
greenhouse gas mitigation potential are considered.
| Item type | Current location | Collection | Call number | Status | Date due | Barcode |
|---|---|---|---|---|---|---|
Theses
|
KAU Central Library, Thrissur Theses | Reference Book | 551.6 VEE/CO (Browse shelf) | Not For Loan | 174035 |
BSc-MSc (Integrated)
Present study entitled “Comparative analysis of carbon and nutrient stocks in
soils of selected woody ecosystems of central Kerala, India” was carried out at the
Academy of Climate Change Education and Research, Kerala Agricultural University,
Vellanikkara, Thrissur during 2015-2016.
The study showed that the carbon and nutrient stocks were significantly
influenced by the treatments. Soil organic carbon is significantly different in each
plantation and was significantly higher than corresponding contiguous treeless soils (p
< 0.005). Also there was significant reduction in depth. Carbon stock was higher for
mahogany plantation (116.01 Mg C ha-1) followed by homestead (105.41 Mg C ha-1)
and teak (103Mg C ha-1). Lower carbon stock was found for mango (76.08Mg C ha-1)
and acacia (75.19 Mg C ha-1). Carbon stock for each plantation was significantly
higher than contiguous open plot. Similarly highest nitrogen and potassium stock was
recorded for mahogany plantation (53.61 Mg N ha-1 and 1030.6 Kg K ha-1) which
were significantly different from contiguous open plot. Nitrogen stocks were lower
for acacia (26.77 Mg N ha-1) and mango (26.77 Mg N ha-1) but are significantly higher
from treeless condition. Nitrogen stock in homestead (30.17 Mg N ha-1) and teak
(38.29 Mg N ha-1) was higher than acacia and mango but lower than mahogany.
Available phosphorous was lower in all woody ecosystems other than homestead
(154.56 Kg P ha-1) with significant reduction across depth.
The results of the present study revealed that soil organic and nutrient stock
varied significantly with woody ecosystems and slow growing species as well as
multi-strata ecosystem enrich soil with carbon and nutrient better than fast growing
species like acacia. Also is significantly higher than treeless condition. Enhancing
tree cover is thus an efficient method to mitigate global warming. Hence choice of the
species and their management conditions are important considerations while designing
plantation forestry programs particularly when their carbon sequestration and
greenhouse gas mitigation potential are considered.
There are no comments for this item.