Guangxi Key Laboratory of Forest Ecology and Conservation, School of Forestry, Guangxi University, Nanning, Guangxi, 530004, China.
School of Biological Science, University of Western Australia, Perth, WA, 6009, Australia.
New Phytol. 2019 Aug;223(3):1621-1633. doi: 10.1111/nph.15910. Epub 2019 Jun 26.
Plants respond to soil phosphorus (P) availability by adjusting leaf P among inorganic P (Pi) and organic P fractions (nucleic acids, phospholipids, small metabolites and a residual fraction). We tested whether phylogenetically divergent plants in a biodiversity hotspot similarly adjust leaf P allocation in response to P limitation by sampling along a 2 Myr chronosequence in southwestern Australia where nitrogen (N) limitation transitions to P limitation with increasing soil age. Total P and N, and P allocated to five chemical fractions were determined for photosynthetic organs from Melaleuca systena (Myrtaceae), Acacia rostellifera (Fabaceae) and Hakea prostrata (Proteaceae). Soil characteristics were also determined. Acacia rostellifera maintained phyllode total P and N concentrations at c. 0.5 and 16 mg g DW, respectively, with a constant P-allocation pattern along the chronosequence. H. prostrata leaves allocated less P to Pi, phospholipids and nucleic acids with increasing soil age, while leaf N concentration was constant. M. systena had the greatest variation in allocating leaf P, whereas leaf N concentration decreased 20% along the chronosequence. Variation in P-allocation patterns was only partially conserved among species along the chronosequence. Such variation could have an impact on species distribution and contribute to species richness in P-limited environments.
植物通过调整叶片无机磷 (Pi) 和有机磷 (核酸、磷脂、小分子代谢物和残余物) 分数之间的磷来响应土壤磷 (P) 的可利用性。我们通过在澳大利亚西南部的一个 200 万年的时间序列中采样,测试了在生物多样性热点地区的系统发育上差异很大的植物是否会以类似的方式响应磷限制来调整叶片磷分配,因为氮 (N) 限制随着土壤年龄的增加而转变为磷限制。我们测定了来自 Melaleuca systena(桃金娘科)、Acacia rostellifera(豆科)和 Hakea prostrata(山龙眼科)光合作用器官的总磷和氮,以及分配到五个化学部分的磷。还测定了土壤特性。Acacia rostellifera 在整个时间序列中保持叶总磷和氮浓度分别约为 0.5 和 16mg g DW,磷分配模式保持不变。H. prostrata 随着土壤年龄的增加,叶片中 Pi、磷脂和核酸的磷分配减少,而叶片氮浓度保持不变。M. systena 叶片磷分配的变化最大,而叶片氮浓度沿时间序列下降了 20%。在时间序列中,物种之间的磷分配模式的变化只有部分得到了保留。这种变化可能会对物种分布产生影响,并有助于在磷限制环境中增加物种丰富度。
