posted on 2021-04-13, 17:34authored byJingbo Gao, Shimao Wang, Zhiqin Li, Lei Wang, Zhujun Chen, Jianbin Zhou
Additional
evidence indicates that the nitrate stored in the deep
soil profile has an important role in regulating the global nitrogen
(N) cycle. This study assessed the effects of land-use changes from
croplands to intensive orchards (LUCO) on N surplus, nitrate accumulation
in deep soil, and groundwater quality in the kiwifruit belt of the
northern slope region of the Qinling Mountains, China. LUCO resulted
in comparatively high N surplus in orchards (282 vs 1206 kg ha–1 yr–1, respectively). The average
nitrate accumulation within the 0–10 m profiles of orchards
was 7113 kg N ha–1, which was equal to approximately
the total N surplus of 6 years of the orchards. The total nitrate
stock within 0–10 m soil profiles of the kiwifruit belt was
266.5 Gg N, which was 3.5 times higher than the total annual N input.
The nitrate concentrations of 97% of groundwater samples exceeded
the WHO standard. The LUCO resulted in large nitrate storage in the
vadose zone and caused serious contamination of groundwater. Our study
highlights that nitrate accumulation in the vadose zone of an intensive
land-use system is one of the main fates of surplus N and also a hotspot
of nitrate accumulation.