Nitrogen Rather Than Phosphorus Limits the Productivity of the Dominant Tree Species at Mine-Disturbed Ultramafic Areas in the Southern Philippines

Nitrogen Pub Date : 2022-08-22 DOI:10.3390/nitrogen3030032

Honey B. Goloran, A. Along, Christina Y. Loquere, M. Demetillo, R. Seronay, Johnvie Bayang Goloran

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Abstract

Understanding the stoichiometry of nitrogen (N) and phosphorus (P) plays a pivotal role in the ecological restoration of degraded landscapes. Here, the N and P limitation and stoichiometry of dominant tree species in mine-disturbed ultramafic areas in the Southern Philippines are reported. Field surveys revealed that out of a total of 1491 trees/shrubs recorded from all quadrats, comprising 22 native and 9 non-native species, there were six tree species (native: Alstonia macrophylla Wallich., Buchanania arborescens Blume., Syzygium sp., and non-native: Casuarina equisetifolia L., Terminalia catappa L. and Acacia mangium Wild.) that were found dominant, having >10% relative abundance. Significant differences (p < 0.01) in the leaf N and leaf P content among these species were observed, where C.equisetifolia (due to N fixation ability) and T. catappa had the highest values, respectively. These did not, however, translate to statistical differences in the leaf N:P ratios either in individual species or when grouped by origin (native or non-native). Interestingly, all dominant tree species revealed very low leaf N:P ratios (<4), suggesting that N rather than P limits the productivity in mine-disturbed ultramafic areas, which is also confirmed by low levels of leaf N (<2.0%). Results further revealed a poor correlation between leaf N and leaf N:P ratios (r = 0.13; p = 0.60), while leaf P (r = 0.49; p < 0.05) revealed otherwise, reinforcing that P is not a limiting factor as also shown in high levels of leaf P (>0.20%). Despite the N-limitation, B. arborescens, C. equisetifolia, and T. catappa had the highest leaf N and P content, suggesting their higher suitability for revegetation of the sites. These findings warrant further verification taking into account the plant physiology, phenology, and soil nutrient availability in natural, degraded, and rehabilitated ultramafic environments.

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氮而不是磷限制了菲律宾南部矿井干扰超镁铁地区优势树种的生产力

了解土壤中氮、磷的化学计量特征对退化景观的生态恢复具有重要意义。本文报道了菲律宾南部矿井干扰区优势树种的氮磷限制和化学计量学特征。野外调查结果显示，在所有样方记录的1491株乔灌木中，包括22种本地树种和9种非本地树种，其中6种为本地树种(Alstonia macrophylla Wallich)。; Buchanania arborescens Blume;非本土植物木麻黄(Casuarina equisetifolia L.)、木刺木(Terminalia catappa L.)和野生马相思(Acacia manmanum Wild.)占优势，相对丰度为10%。不同树种间叶片氮、磷含量差异极显著(p < 0.01)，其中木贼叶(由于固氮能力)和石刺柏分别最高。然而，这并没有转化为单个物种或按来源分组(本地或非本地)时叶片N:P比率的统计差异。有趣的是，所有优势树种的叶片氮磷比都很低(0.20%)。尽管存在氮素限制，但乔木、木柏和石刺柏的叶片氮磷含量最高，表明它们更适合植被恢复。考虑到植物生理学、物候学和土壤养分在自然、退化和恢复的超湿地环境中的有效性，这些发现值得进一步验证。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Nitrogen

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