Importance of the leaf respiratory quotient.

IF 5.4 2区生物学 Q1 PLANT SCIENCES

Physiologia plantarum Pub Date : 2025-03-01 DOI:10.1111/ppl.70235

Dan Bruhn, Yuzhen Fan, Kevin L Griffin, Daniel Cowan-Turner, Andrew P Scafaro, Ian Max Møller, Owen K Atkin

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引用次数: 0

Abstract

Rates of leaf respiratory CO₂-release (R_CO2) are important for terrestrial biosphere models that estimate carbon exchange between plants and the atmosphere. Hitherto, models of R_CO2 have primarily been based on considerations of respiratory energy demand (particularly ATP) for maintenance and growth purposes. Respiratory ATP synthesis is closely tied to the rate of respiratory O₂-uptake (R_O2), with relative engagement of the alternative oxidase influencing the ATP:O ratio. However, the extent to which respiratory ATP synthesis is coupled to leaf R_CO2 depends on the respiratory quotient (RQ, mol CO₂ efflux per unit mol O₂ uptake), with models predicting leaf R_CO2 assuming that the RQ is at unity. Here, we show systematic inter-specific, temporal and temperature-dependent variation in leaf RQ, with values of RQ ranging from 0.51 to 2.2, challenging model assumptions on the RQ. We discuss possible mechanisms underlying the variation in leaf RQ, potential ways forward in terms of new measurement protocols, and perspectives for modelled R_CO2. Our analyses highlight a range of outstanding research questions that need to be answered before we can mechanistically model leaf R_CO2 at various scales.

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叶片呼吸商的重要性。

叶片呼吸co2释放速率（RCO2）对于估算植物与大气之间碳交换的陆地生物圈模型非常重要。迄今为止，RCO2模型主要基于维持和生长所需的呼吸能量需求（特别是ATP）。呼吸ATP合成与呼吸o2吸收率（RO2）密切相关，替代氧化酶的相对参与影响ATP:O比率。然而，呼吸ATP合成与叶片RCO2耦合的程度取决于呼吸商（RQ，每单位摩尔O2摄取的摩尔CO2排出量），预测叶片RCO2的模型假设RQ是一致的。在这里，我们展示了叶片RQ的系统的种间、时间和温度依赖的变化，RQ值在0.51到2.2之间，挑战了模型对RQ的假设。我们讨论了叶片RQ变化的可能机制，在新的测量方案方面的潜在方法，以及模拟RCO2的观点。我们的分析突出了一系列突出的研究问题，在我们能够在各种尺度上机械地模拟叶片RCO2之前，需要回答这些问题。

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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来源期刊

Physiologia plantarum 生物-植物科学

CiteScore

11.00

自引率

3.10%

发文量

224

审稿时长

3.9 months

期刊介绍： Physiologia Plantarum is an international journal committed to publishing the best full-length original research papers that advance our understanding of primary mechanisms of plant development, growth and productivity as well as plant interactions with the biotic and abiotic environment. All organisational levels of experimental plant biology – from molecular and cell biology, biochemistry and biophysics to ecophysiology and global change biology – fall within the scope of the journal. The content is distributed between 5 main subject areas supervised by Subject Editors specialised in the respective domain: (1) biochemistry and metabolism, (2) ecophysiology, stress and adaptation, (3) uptake, transport and assimilation, (4) development, growth and differentiation, (5) photobiology and photosynthesis.