Elevational variation of the seasonal dynamic of carbohydrate reserves in an alpine plant of Mediterranean mountains

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2022-02-07 DOI:10.1007/s00035-022-00277-y
Claudia Reyes-Bahamonde, Frida I. Piper, Lohengrin A. Cavieres
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引用次数: 1

Abstract

In alpine plants, the temporal variation in the concentrations of non-structural carbohydrates (NSC) is closely related to the growth phenology, which is largely controlled by annual variations in temperature. However, in alpine areas of Mediterranean-type climate regions, plants growing at low elevations are also exposed to seasonal drought. Given the influence of drought on growth phenology and gas exchange, we hypothesize that the seasonal dynamics of growth and NSC concentrations in alpine plants of Mediterranean biomes is co-controlled by elevational gradients of temperature and soil moisture. If so, the end of the growing season and the maximum NSC concentrations at lower elevations should coincide with the occurrence of drought. We characterized the seasonal dynamics of photosynthesis capacity, growth and NSC concentrations, in an alpine plant species of the Andes of central Chile (Phacelia secunda Gmel.) at 1600 and 3600 m. We found that the length of the growing season was similar between elevations, but the timings differed. Whilst at 3600 m, the number of leaves and the mean leaf length progressively increased from December to February, at 1600 m, in contrast, they increased from the October to December. Likewise, maximum NSC concentrations at 3600 were observed at autumn along with growth cessation. Conversely, at 1600 m, the highest NSC concentration and the growth cessation were found towards mid-summer, and coincided with a drastic drop in both stomatal conductance and photosynthesis which were not observed at 3600 m. These results demonstrate that temperature alone does not control the growth phenology and the seasonal dynamics of NSC concentrations in alpine plants of Mediterranean biomes. Rather, summer drought also exerts a significant influence in the timing of the growing season and the NSC dynamics.

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地中海高山植物碳水化合物储量季节动态的海拔变化
在高山植物中,非结构碳水化合物(NSC)浓度的时间变化与生长酚学密切相关,而生长酚学在很大程度上受温度的年度变化控制。然而,在地中海型气候区的高山地区,生长在低海拔地区的植物也会受到季节性干旱的影响。考虑到干旱对生长表型和气体交换的影响,我们假设地中海生物群落高山植物生长和NSC浓度的季节动态由温度和土壤湿度的海拔梯度共同控制。如果是这样,生长季节的结束和低海拔地区NSC的最大浓度应该与干旱的发生相吻合。我们对智利中部安第斯山脉的一种高山植物(Phacelia secunda Gmel.)在1600米和3600米处光合作用能力、生长和NSC浓度的季节动态进行了表征。我们发现,不同海拔地区的生长季节长度相似,但时间不同。在3600米处,叶片数量和平均叶长从12月到2月逐渐增加,而在1600米处,则从10月到12月增加。同样,随着生长停止,在秋季观察到最大NSC浓度为3600。相反,在1600米处,NSC浓度最高,生长停止发生在仲夏,同时气孔导度和光合作用急剧下降,而在3600米处没有观察到。这些结果表明,温度本身并不能控制地中海生物群落高山植物的生长酚学和NSC浓度的季节动态。相反,夏季干旱也对生长季节的时间安排和NSC的动态产生了重大影响。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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