Soil Erosion Rates and Nutrient Loss in Rangelands of Southern Patagonia
Publikation: Bidrag til bog/antologi/rapport › Bidrag til bog/antologi › Forskning › fagfællebedømt
Standard
Soil Erosion Rates and Nutrient Loss in Rangelands of Southern Patagonia. / Peri, Pablo L.; Lasagno, Romina G.; Chartier, Marcelo; Roig, Fidel; Rosas, Yamina M.; Pastur, Guillermo Martínez.
Imperiled: The Encyclopedia of Conservation. red. / Dominick A DellaSala; Michael I. Goldstein. Bind 3 Elsevier, 2022. s. 102-110.Publikation: Bidrag til bog/antologi/rapport › Bidrag til bog/antologi › Forskning › fagfællebedømt
Harvard
APA
Vancouver
Author
Bibtex
}
RIS
TY - CHAP
T1 - Soil Erosion Rates and Nutrient Loss in Rangelands of Southern Patagonia
AU - Peri, Pablo L.
AU - Lasagno, Romina G.
AU - Chartier, Marcelo
AU - Roig, Fidel
AU - Rosas, Yamina M.
AU - Pastur, Guillermo Martínez
PY - 2022
Y1 - 2022
N2 - Soil erosion in rangelands is the main driver of desertification as a result of severe drought events and overgrazing reducing potential land productivity. The objectives of this chapter are to provide an overview of soil erosion as it relates to ecosystem services and to determine soil erosion rates from exposed roots of four shrub and dwarf-shrub species in nine sites of Southern Patagonia rangelands (Santa Cruz province, Argentina) as a case study. We highlight that soil protection is critical to sustain the capacity of rangeland ecosystems to supply provisioning (lamb and cattle meat, sheep wool) supporting (nutrient cycling, biodiversity, habitat) and regulating (carbon fixation, water flow regulation) ecosystem services for human well-being. We used a dendrogeomorphological method to determine soil erosion rates against datable exposed roots. Also, in each site soil samples were collected from nine randomly selected points in nondegraded patches to provide reference points from which to calculate loss of soil organic carbon and nutrients from erosion. The soil erosion rate in the degraded areas characterized by dwarf shrubs and shrubs with exposed roots was significantly different between sites and ranged from 1.6 to 4.1 mm year− 1. Soil mass loss rate ranged from 12.7 to 32.0 Mg ha− 1 year− 1 and soil carbon loss fluctuated from 85.3 to 250.1 kg C ha− 1 year− 1. The main soil nutrient depleted during erosion processes was nitrogen (mean sites value of 17.9 kg N ha− 1 year− 1) followed by potassium (mean of 9.2 kg K ha− 1 year− 1) followed by phosphorus (mean of 0.6 kg P ha− 1 year− 1). These results highlight the need for an early warning system by a soil erosion monitoring entity to prevent soil loss and prescribe sustainable management practices to maintain rangelands in an ecologically healthy state to conserve ecological functions and ecosystem service provision.
AB - Soil erosion in rangelands is the main driver of desertification as a result of severe drought events and overgrazing reducing potential land productivity. The objectives of this chapter are to provide an overview of soil erosion as it relates to ecosystem services and to determine soil erosion rates from exposed roots of four shrub and dwarf-shrub species in nine sites of Southern Patagonia rangelands (Santa Cruz province, Argentina) as a case study. We highlight that soil protection is critical to sustain the capacity of rangeland ecosystems to supply provisioning (lamb and cattle meat, sheep wool) supporting (nutrient cycling, biodiversity, habitat) and regulating (carbon fixation, water flow regulation) ecosystem services for human well-being. We used a dendrogeomorphological method to determine soil erosion rates against datable exposed roots. Also, in each site soil samples were collected from nine randomly selected points in nondegraded patches to provide reference points from which to calculate loss of soil organic carbon and nutrients from erosion. The soil erosion rate in the degraded areas characterized by dwarf shrubs and shrubs with exposed roots was significantly different between sites and ranged from 1.6 to 4.1 mm year− 1. Soil mass loss rate ranged from 12.7 to 32.0 Mg ha− 1 year− 1 and soil carbon loss fluctuated from 85.3 to 250.1 kg C ha− 1 year− 1. The main soil nutrient depleted during erosion processes was nitrogen (mean sites value of 17.9 kg N ha− 1 year− 1) followed by potassium (mean of 9.2 kg K ha− 1 year− 1) followed by phosphorus (mean of 0.6 kg P ha− 1 year− 1). These results highlight the need for an early warning system by a soil erosion monitoring entity to prevent soil loss and prescribe sustainable management practices to maintain rangelands in an ecologically healthy state to conserve ecological functions and ecosystem service provision.
U2 - 10.1016/B978-0-12-821139-7.00183-5
DO - 10.1016/B978-0-12-821139-7.00183-5
M3 - Book chapter
SN - 9780128211397
VL - 3
SP - 102
EP - 110
BT - Imperiled
A2 - DellaSala, Dominick A
A2 - Goldstein, Michael I.
PB - Elsevier
ER -
ID: 339255676