Interspecific and intraspecific variations in root phosphatase activity among tropical tree species with different soil phosphorus associations

IF 5.3 1区环境科学与生态学 Q1 ECOLOGY

Journal of Ecology Pub Date : 2025-05-06 DOI:10.1111/1365-2745.70053

Ryota Aoyagi, Riona Kobayashi, Benjamin L. Turner

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Abstract

Variation in soil phosphorus (P) availability promotes niche differentiation among tropical tree species, yet the traits that underpin specialization on low‐P and high‐P soils (hereafter low‐P and high‐P species) remain poorly understood. Here, we examined interspecific and intraspecific variation in three types of root phosphatase enzymes and morphological traits among neotropical tree species in Panama with different habitat associations.

We collected fine roots from 51 individual trees of four congeneric pairs of low‐P and high‐P neotropical tree species in the genera Cordia, Hirtella, Inga and Protium in forests on moderate to low‐P soils. We determined root morphological traits (specific root length, diameter and root tissue density) and the root surface activities of phosphomonoesterase (PME), phosphodiesterase (PDE) and phytase (PHY) enzymes, which are synthesized to release inorganic orthophosphate from soil organic P. Soil P availability was determined by measuring resin‐extractable P concentration for soils collected from the base of each tree.

Low‐P species allocated more resources to produce enzymes that decompose more complex forms of P, as indicated by greater PHY activity and greater PHY:PME and PDE:PME ratios at a given soil P availability. A principal component analysis of fine‐root traits showed a greater Euclidian distance among individuals of low‐P species than among those of high‐P species, supporting the hypothesis that fine‐root traits vary more among low‐P species than among high‐P species.

Synthesis. These results suggest that the specialization of tropical tree species to low‐P soil involves investment in the acquisition of complex soil organic phosphates such as phosphodiesters and phytic acid. This is possibly related to root trait divergence and indicates that variation in P acquisition strategies among tropical tree species could contribute to resource partitioning on low‐P soils.

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不同土壤磷关联的热带树种根系磷酸酶活性的种间和种内变化

土壤磷(P)有效性的变化促进了热带树种之间的生态位分化，但支撑低磷和高磷土壤（以下简称低磷和高磷物种）专门化的特征仍然知之甚少。在此，我们研究了巴拿马不同生境的新热带树种中三种类型的根系磷酸酶和形态特征的种间和种内变异。研究人员在中低磷土壤的森林中采集了51棵低磷和高磷新热带树种（Cordia、Hirtella、Inga和Protium）的细根。我们测定了根系形态特征（比根长、直径和根组织密度）和磷单酯酶（PME）、磷二酯酶（PDE）和植酸酶（PHY）的根表面活性，这些酶是在土壤有机磷中释放无机正磷酸盐的合成酶。低磷物种分配了更多的资源来产生分解更复杂形式的磷的酶，这表明在给定的土壤磷有效性下，更高的PHY活性和更高的PHY:PME和PDE:PME比率。细根性状的主成分分析显示，低磷物种之间的欧几里得距离大于高磷物种之间的欧几里得距离，这支持了细根性状在低磷物种之间比在高磷物种之间差异更大的假设。合成。这些结果表明，热带树种向低磷土壤的特化涉及对获取复杂土壤有机磷酸盐（如磷酸二酯和植酸）的投资。这可能与根系性状差异有关，并表明热带树种间磷获取策略的差异可能有助于低磷土壤的资源分配。

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来源期刊

Journal of Ecology 环境科学-生态学

CiteScore

10.90

自引率

5.50%

发文量

207

审稿时长

3.0 months

期刊介绍： Journal of Ecology publishes original research papers on all aspects of the ecology of plants (including algae), in both aquatic and terrestrial ecosystems. We do not publish papers concerned solely with cultivated plants and agricultural ecosystems. Studies of plant communities, populations or individual species are accepted, as well as studies of the interactions between plants and animals, fungi or bacteria, providing they focus on the ecology of the plants. We aim to bring important work using any ecological approach (including molecular techniques) to a wide international audience and therefore only publish papers with strong and ecological messages that advance our understanding of ecological principles.