کد مقاله | کد نشریه | سال انتشار | مقاله انگلیسی | نسخه تمام متن |
---|---|---|---|---|
6407650 | 1629204 | 2017 | 8 صفحه PDF | دانلود رایگان |
- Agricultural land-uses decrease contents of soil C and N along soil profile.
- Stoichiometry between soil K and other nutrients can be affected by land-use.
- High soil P contents lead to lower C: P and N: P than those of global averages.
- More nutrient inputs should be applied to agricultural land-uses in the study area.
Stoichiometry is an important indicator of the elemental balance in ecological interaction and process. However, the effect of land-use on stoichiometry of soil nutrient along soil profile remains uncertain. In this study, soil samples (0-20Â cm, 20-40Â cm, 40-60Â cm, 60-80Â cm and 80-100Â cm) were collected from six different land-uses including maize field (MZ), wheat field (WT), paddy field (PD), apple orchard (OC), grassland (GL) and wetland (WL) in a traditional agro-pastoral region of the Ili River Valley, northwest China, to evaluate the influences of land-use on contents and stoichiometry of soil carbon (C), nitrogen (N), phosphorus (P) and potassium (K) along a 100Â cm soil profile. The results showed that natural land (GL and WL) had significantly higher soil organic C (SOC), soil total nitrogen (STN) and soil available N (SAN) contents than those of croplands (MZ, WT, PD and OC) in all soil layers. However, differences in soil P and K contents between the two land-uses were not significant in most soil layers. Such characteristics of soil nutrient contents led to significant differences in soil C: P (RCP), C: K (RCK), N: P (RNP) and N: K (RNK), while no significant differences in soil C: N (RCN) and P: K (RPK) between cropland and natural land, indicating that nutrient stoichiometry of deep soils can be also affected by land-use. In the 0-20Â cm soil layer, soil RCN of different land-uses, as well as their average in our study were similar to those on Chinese and global scales. However, since our study area has relatively lower SOC and STN contents while higher STP contents than the global averages, the average soil RCP, RNP and C: N: P (RCNP) of our study were lower than the those on the global scale. Therefore, we suggest that more nutrient inputs, such as manure and crop residues should be applied to the croplands of the Ili River Valley to improve the levels of soil C and N.
Journal: CATENA - Volume 150, March 2017, Pages 146-153