Nitrogen-phosphorus stoichiometry shapes seedling growth and yield performance of perennial cool-season forage grasses in saline-alkali soil.
Nan Xu, Junpeng Niu, Zhipeng Guo, Quanzhen Wang, Zhao Chen
Abstract
Open AccessGrass production faces increasing challenges due to excessive fertilization, which contributes to greenhouse gas emissions and poor soil quality, especially in saline-alkali regions, threatening long-term sustainability. Most previous studies have focused on short-term effects of nitrogen (N) or phosphorus (P) applied individually, with limited understanding of their interactive and long-term impacts. This study investigated the combined effects of N and P fertilization on the seed germination and yield production of perennial cool-season forage grasses under saline-alkali soil conditions. Over three consecutive years, large-scale orthogonal field experiments were conducted with 18 N levels (0-480 kg N ha⁻¹) and 16 P levels (0-240 kg P₂O₅ ha⁻¹) across six grass species to determine the optimal N:P ratio for seed germination, seed yield and yield components. Results showed that P had a stronger impact on early seedling vigor, while N primarily influenced reproductive growth and yield. Species varied in their nutrient responses, with shallow-rooted species favoring low nutrients and deep-rooted species benefiting from moderate to high fertilization. Optimal N: P ratios were around 2:1 for seed germination and 2.86:1 for yield. Excessive or imbalanced N and P reduced growth and yield due to nutrient antagonism and stress. These findings emphasize balanced fertilization strategies to improve nutrient use efficiency and grass productivity in saline-alkali environments.