Elevated nitrogen (N) deposition may aggravate phosphorus (P) deficiency in forests in the warm humid regions of China. To our knowledge, the interactive effects of long-term N deposition and P availability on soil microorganisms in tropical replanted forests remain unclear. We conducted an N and P manipulation experiment with four treatments: control, N addition (15 g N m(-2).yr(-1)), P addition (15 g P m(-2).yr(-1)), and N and P addition (15 + 15 g N and P m(-2).yr(-1), respectively) in disturbed (planted pine forest with recent harvests of understory vegetation and litter) and rehabilitated (planted with pine, but mixed with broadleaf returning by natural succession) forests in southern China. Nitrogen addition did not significantly affect soil microbial biomass, but significantly decreased the abundance of gram-negative bacteria PLFAs in both forest types. Microbial biomass increased significantly after P addition in the disturbed forest but not in the rehabilitated forest. No interactions between N and P additions on soil microorganisms were observed in either forest type. Our results suggest that microbial growth in replanted forests of southern China may be limited by P rather than by N, and this P limitation may be greater in disturbed forests.
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机译:在温暖湿润地区,森林中氮(N)含量的升高可能加剧磷(P)的缺乏。据我们所知,热带种植森林中长期氮沉降和磷有效性对土壤微生物的相互作用影响尚不清楚。我们进行了N和P操纵实验,共有四种处理方法:对照,N添加(15 g N m(-2).yr(-1)),P添加(15 g P m(-2).yr(-1) ),以及在受干扰的(种植有林下植被和凋落物的最近收获的松树森林)和修复后的(种植松树)中添加氮和磷(分别为15 + 15 g N和P m(-2).yr(-1)) ,但混有中国南部的阔叶林(自然演替归还)。氮添加并未显着影响土壤微生物生物量,但显着降低了两种森林类型中革兰氏阴性菌PLFA的丰度。在受干扰的森林中添加磷后,微生物生物量显着增加,而在恢复森林中则没有。在两种森林类型中,均未观察到氮和磷的添加对土壤微生物的相互作用。我们的结果表明,中国南方人工造林中的微生物生长可能受到磷的限制,而不是氮的限制,而磷的限制在受干扰的森林中可能更大。
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