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生长速率和适应低磷生境不同的短叶瓶干树和瓶干树的叶片养分分配模式。

Foliar nutrient allocation patterns in Banksia attenuata and Banksia sessilis differing in growth rate and adaptation to low-phosphorus habitats.

机构信息

College of Chinese Medicinal Materials, Jilin Agricultural University, Changchun, Jilin, China.

School of Biological Sciences and Institute of Agriculture, The University of Western Australia, Perth, WA, Australia.

出版信息

Ann Bot. 2021 Sep 3;128(4):419-430. doi: 10.1093/aob/mcab013.

DOI:10.1093/aob/mcab013
PMID:33534909
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8414927/
Abstract

BACKGROUND AND AIMS

Phosphorus (P) and nitrogen (N) are essential nutrients that frequently limit primary productivity in terrestrial ecosystems. Efficient use of these nutrients is important for plants growing in nutrient-poor environments. Plants generally reduce foliar P concentration in response to low soil P availability. We aimed to assess ecophysiological mechanisms and adaptive strategies for efficient use of P in Banksia attenuata (Proteaceae), naturally occurring on deep sand, and B. sessilis, occurring on shallow sand over laterite or limestone, by comparing the allocation of P among foliar P fractions.

METHODS

We carried out pot experiments with slow-growing B. attenuata, which resprouts after fire, and faster growing opportunistic B. sessilis, which is killed by fire, on substrates with different P availability using a randomized complete block design. We measured leaf P and N concentrations, photosynthesis, leaf mass per area, relative growth rate and P allocated to major biochemical fractions in B. attenuata and B. sessilis.

KEY RESULTS

The two species had similarly low foliar total P concentrations, but distinct patterns of P allocation to P-containing fractions. The foliar total N concentration of B. sessilis was greater than that of B. attenuata on all substrates. The foliar total P and N concentrations in both species decreased with decreasing P availability. The relative growth rate of both species was positively correlated with concentrations of both foliar nucleic acid P and total N, but there was no correlation with other P fractions. Faster growing B. sessilis allocated more P to nucleic acids than B. attenuata did, but other fractions were similar.

CONCLUSIONS

The nutrient allocation patterns in faster growing opportunistic B. sessilis and slower growing B. attenuata revealed different strategies in response to soil P availability which matched their contrasting growth strategy.

摘要

背景与目的

磷(P)和氮(N)是陆地生态系统中基本的营养物质,它们通常限制初级生产力。在营养贫瘠的环境中生长的植物有效地利用这些养分非常重要。植物通常会降低叶片 P 浓度以响应土壤低 P 供应。我们旨在通过比较叶片 P 分数之间的分配来评估在自然生长于深沙上的 Banksia attenuata(山龙眼科)和生长于红土或石灰岩上的浅沙上的 B. sessilis 中高效利用 P 的生理生态机制和适应性策略。

方法

我们在具有不同 P 供应的基质上使用随机完全区组设计,对缓慢生长的、火灾后再生的 B. attenuata 和快速生长的、火灾后死亡的机会主义植物 B. sessilis 进行了盆栽实验。我们测量了叶片 P 和 N 浓度、光合作用、叶面积质量、相对生长率和 B. attenuata 和 B. sessilis 中主要生化分数分配的 P。

结果

这两个物种的叶片总 P 浓度相似,但 P 分配到含 P 分数的模式明显不同。B. sessilis 的叶片总 N 浓度在所有基质上均高于 B. attenuata。两种物种的叶片总 P 和 N 浓度随着 P 供应的减少而降低。两种物种的相对生长率均与叶片核酸 P 和总 N 浓度呈正相关,但与其他 P 分数无相关性。生长较快的 B. sessilis 比 B. attenuata 分配更多的 P 到核酸中,但其他分数相似。

结论

生长较快的机会主义植物 B. sessilis 和生长较慢的 B. attenuata 的养分分配模式显示出不同的策略,以响应土壤 P 供应,这与它们的生长策略相匹配。

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