二氧化碳浓度和温度对黑暗中大豆叶片呼吸作用、同化物运输及硝酸盐还原影响的比较

A comparison of the effects of carbon dioxide concentration and temperature on respiration, translocation and nitrate reduction in darkened soybean leaves.

作者信息

Bunce James A

机构信息

ACSL, Plant Science Institute, Beltsville Agricultural Research Center, USDA, Beltsville, MD, USA.

出版信息

Ann Bot. 2004 Jun;93(6):665-9. doi: 10.1093/aob/mch090. Epub 2004 Mar 29.

DOI:10.1093/aob/mch090

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4242295/

Abstract

BACKGROUND AND AIMS

Respiration of autotrophs is an important component of their carbon balance as well as the global carbon dioxide budget. How autotrophic respiration may respond to increasing carbon dioxide concentrations, [CO(2)], in the atmosphere remains uncertain. The existence of short-term responses of respiration rates of plant leaves to [CO(2)] is controversial. Short-term responses of respiration to temperature are not disputed. This work compared responses of dark respiration and two processes dependent on the energy and reductant supplied by dark respiration, translocation and nitrate reduction, to changes in [CO(2)] and temperature.

METHODS

Mature soybean leaves were exposed for a single 8-h dark period to one of five combinations of air temperature and [CO(2)], and rates of respiration, translocation and nitrate reduction were determined for each treatment.

KEY RESULTS

Low temperature and elevated [CO(2)] reduced rates of respiration, translocation and nitrate reduction, while increased temperature and low [CO(2)] increased rates of all three processes. A given change in the rate of respiration was accompanied by the same change in the rate of translocation or nitrate reduction, regardless of whether the altered respiration was caused by a change in temperature or by a change in [CO(2)].

CONCLUSIONS

These results make it highly unlikely that the observed responses of respiration rate to [CO(2)] were artefacts due to errors in the measurement of carbon dioxide exchange rates in this case, and indicate that elevated [CO(2)] at night can affect translocation and nitrate reduction through its effect on respiration.

摘要

背景与目的

自养生物的呼吸作用是其碳平衡以及全球二氧化碳收支的重要组成部分。自养呼吸如何响应大气中不断增加的二氧化碳浓度[CO₂]仍不确定。植物叶片呼吸速率对[CO₂]的短期响应是否存在存在争议。呼吸对温度的短期响应并无争议。本研究比较了暗呼吸以及依赖暗呼吸提供的能量和还原剂的两个过程——转运和硝酸盐还原，对[CO₂]和温度变化的响应。

方法

将成熟大豆叶片在黑暗中暴露8小时，使其处于气温和[CO₂]的五种组合之一的环境中，然后测定每种处理下的呼吸、转运和硝酸盐还原速率。

主要结果

低温和升高的[CO₂]降低了呼吸、转运和硝酸盐还原速率，而升高温度和降低[CO₂]则提高了这三个过程的速率。无论呼吸速率的改变是由温度变化还是[CO₂]变化引起的，呼吸速率的给定变化都伴随着转运速率或硝酸盐还原速率的相同变化。

结论

这些结果极不可能表明在这种情况下观察到的呼吸速率对[CO₂]的响应是由于二氧化碳交换率测量误差导致的假象，并表明夜间升高的[CO₂]可通过其对呼吸的影响来影响转运和硝酸盐还原。

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