Soil Available Phosphorus Investigated for Spatial Distribution and Effect Indicators Resulting from Ecological Construction on the Loess Plateau, China

Soil phosphorus is a major determinant and indicator of soil fertility and quality, and is also a source of nonpoint-source pollution. In order to control soil andwater loss in the Loess Plateau, a series of soil andwater conservationmeasures have been taken, resulting in changes in land use and differences in spatial distribution. It is necessary to study soil available phosphorus (SAP) to evaluate land productivity and environmental quality. In this study, the spatial distribution of SAP in different land uses was investigated in a small catchment area of Loess Plateau, and the field-influencing factors were determined on five layerswith soil depth of 20 cm. The results show the minimum and maximum SAP content occurred at 20-40 cm and 80-100 cm soil depth and reach a value of 27.26 mg/kg and 29.37 mg/kg at catchment scale, respectively. There is significant difference among the SAP of the five soil layers (p < 0.01). The SAP of different land uses is, in order: forestland < slope farmland < dam farmland < terrace < grassland. Different land uses' topographies make a difference to the spatial distribution of SAP. Slope and soil texture are the domain factors influencing the SAP concentration at the catchment.

Automated summary

Soil phosphorus is a crucial indicator of soil fertility and quality, as well as a source of nonpoint-source pollution. Different land uses and topographies influence the spatial distribution of soil available phosphorus, with slope and soil texture being key factors affecting its concentration in the catchment.