根毛对土壤和气候变化的形态反应取决于植物的生命形式

IF 2.7 3区 农林科学 Q2 ECOLOGY Frontiers in Forests and Global Change Pub Date : 2024-05-01 DOI:10.3389/ffgc.2024.1324405
Yingtong Zhou, Cunguo Wang, Qinrong Tang, Junni Wang, Mai-He Li
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引用次数: 0

摘要

根毛可增加植物根系与土壤接触的表面积,从而促进植物对水分和养分的吸收。然而,从全球变化背景下资源获取策略的角度来看,人们对草本和木本植物根毛的特征及其对生物和非生物变量的具体反应模式知之甚少。在此,我们分析了 74 个已发表的案例研究,共观察到 1074 个根毛特征,以确定根毛长度、密度和直径与土壤(如土壤 pH 值、养分水平)、生长环境(田间)的关系模式、与草本植物相比,木本植物的根毛更长、更密、更粗,草本植物根毛的长度和直径随基因组大小而增加。随着植株年龄的增加,木本植物的根毛明显更长更粗,而草本植物的根毛密度和直径则明显下降。土壤培养的植物比溶液培养的植物根毛更长。温室栽培植物的根毛长度和密度大于大田栽培植物,后者的根毛比前者粗。随着土壤 pH 值的升高,木本植物的根毛长度增加但直径减小,而草本植物的根毛密度增加。土壤全氮(N)和钾(K)的增加显著增加了草本植物的根毛长度、密度和直径,而土壤全氮显著降低了木本植物的根毛密度。年平均气温越高、降水季节性越强,根毛长度明显增加,而根毛密度则明显降低;年温度范围越宽,情况则相反。这些发现将有助于加深我们对全球气候变化下不同植物形态的资源获取策略及其机制的理解。
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Morphological responses of root hairs to changes in soil and climate depend on plant life form
Root hairs increase the surface area of a plant’s root system that is in contact with the soil, thus facilitating plant water and nutrient uptake. However, little is known about the characteristics of the root hairs of herbaceous and woody plants and their specific response patterns to biotic and abiotic variables from the perspective of resource acquisition strategies in the context of global change.Here, we analyzed 74 published case studies with 1074 observations of root hair traits to identify patterns of root hair length, density and diameter in relation to soil (e.g., soil pH, nutrient levels), growing environments (e.g., greenhouse, field) and climatic factors (e.g., air temperature), as well as genome size and plant age.Root hairs were longer, denser and thicker in woody plants compared with herbaceous plants, and the length and diameter of root hairs in herbaceous plants increased with genome size. With increasing plant age, woody plants had significantly longer and thicker root hairs, while root hair density and diameter declined significantly for herbaceous plants. Soil-cultured plants had longer root hairs than solution-cultured plants. The length and density of root hairs were greater in greenhouse-cultured plants than in field-grown plants, and the latter had thicker root hairs than the former. As soil pH increased, root hair length increased but diameter decreased in woody plants, while root hair density increased in herbaceous plants. Increased soil total nitrogen (N) and potassium (K) significantly increased root hair length, density and diameter in herbaceous plants, while soil total N significantly decreased root hair density in woody plants. Root hair length increased significantly, while root hair density decreased significantly, with higher mean annual temperature and greater precipitation seasonality, while the opposite pattern was true for a wider annual temperature range.Our findings emphasize the life-form-specific responses of root hairs to soil and climatic variables. These findings will help deepen our understanding of resource acquisition strategies and their mechanisms in different plant forms under global climate change.
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来源期刊
CiteScore
4.50
自引率
6.20%
发文量
256
审稿时长
12 weeks
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