Variability in Soil Macronutrient Stocks across a Chronosequence of Masson Pine Plantations

Plantations play a vital role in the global nutrient cycle because they have large stocks of soil macronutrients. However, the impacts of plantations on soil macronutrient stocks combined with stand age and soil physicochemical properties have not been well quantified. We compared soil macronutrient stocks at soil depths of 0-20 and 20-40 cm across a 7-, 14-, 25-, and 30-year chronosequence of Masson pine (Pinus massoniana Lamb.) plantations. The results showed that the nitrogen (N), phosphorus (P), and potassium (K) stocks first increased and then decreased with stand age. The highest N and P stocks were observed in the 14-year-old plantation, and the 25-year-old plantation displayed the highest K stock. The C, N, and P stocks declined with increasing soil depth across all sites, whereas the reverse trend was found in the K stock. Carbon stocks were highest for all plantations, followed by the K, N, and P stocks. Plantation soils exhibited a higher C:P ratio and a lower P:K ratio at various soil depths. The dominant controlling factors for the soil macronutrient stocks varied significantly at different stand ages and soil depths according to statistical analysis. For the total soil system, the C stock was affected by the available nutrients, organic matter, and stoichiometry; the available nutrients and organic matter were the determinant factors of the N and P stocks. Aggregate stability could be the primary parameter affecting the K stock. Organic matter explained most of the variation in soil macronutrient stocks, followed by the P:K ratio and available K. Collectively, our results suggest that the response of soil macronutrient stocks to stand age and soil depth will be dependent on different soil physicochemical properties, and P and K may be important limiting factors in Masson pine plantation ecosystems.

Automated summary

Plantations have a significant role in the global nutrient cycle due to their large stocks of soil macronutrients. However, the impacts of plantations on soil macronutrient stocks in relation to stand age and soil physicochemical properties have not been well understood. This study examined soil macronutrient stocks in Masson pine plantations at different stand ages and depths and found that nitrogen, phosphorus, and potassium stocks initially increased and then decreased with stand age. Carbon stocks were highest, followed by potassium, nitrogen, and phosphorus stocks. The study also revealed that phosphorus and potassium may be important limiting factors in Masson pine plantation ecosystems. Overall, this research highlights the importance of considering different soil physicochemical properties when studying soil macronutrient stocks in plantations.