TY - EJOUR
AU - Gholami, Atefeh
AU - Yu, Yongqiang
AU - Sadoddin, Amir
AU - Zhang, Wen
PY - 2023
DA - November
TI - Soil Organic Carbon Stock Changes in Response to Land-use Changes in Iran
T2 - Journal of Rangeland Science
VL - 11
L1 - https://oiccpress.com/journal-of-rangeland-science/article/soil-organic-carbon-stock-changes-in-response-to-land-use-changes-in-iran/
N2 - Land-use and land-use change can directly affect soil organic carbon. Improper land management can lead to carbon loss from the soil, which can greatly intensify global warming. Despite the abundance of evidence on Soil Organic Carbon (SOC) in Iran, no paper has so far compiled the data for this region. Therefore, data were collected from 120 papers and 393 data points regarding land use and SOC changes. Stepwise regression analysis was used to analyze the relationship between SOC with annual precipitation, average annual temperature, latitude and average depth of sampling. Pearson correlation coefficients were calculated between SOC and other factors. Based on the results, primary forests and reforested areas had significantly higher SOC stocks at the depth of 20cm with average values of 70.03 (±4.45) Mg C ha-1 and 84.38 (±9.01) Mg C ha-1, respectively while there were no significant differences among other land use categories. The findings of this study showed no changes in SOC stocks among land-use change categories and average annual rates of SOC changes. However, among farmlands, evidence was obtained for a significant SOC reduction in cases with a historic forest land-use (-15.2%) compared with those with historic grassland use. Results indicated that farmlands and primary forests had the highest level of SOC input from litter and fine roots, respectively. By evaluating the impact of different factors on SOC using a stepwise regression analysis, it was demonstrated that 31% of the variations in soil carbon storage at different land-use types can be explained by precipitation, temperature, latitude, and sampling depth. Using the obtained equation, SOC variation in Iran was simulated and mapped showing that except for a narrow strip in northern Iran, the rest of the country suffers from low SOC levels. Totally, protecting forests against land conversion is recommended as the top priority for land managers in Iran.
IS - 3
PB - OICC Press
KW - Land-cover, Meta-analysis, SOC loss, Land use, Carbon 
EN -