Leaf size variations in a dominant desert shrub, <i>Reaumuria soongarica</i>, adapted to heterogeneous environments

Fan, Xingke; Yan, Xiaobing; Chen, Qian; Bachir, Daoura Goudia; Yin, Xiaoyue; Sun, Peilong; Ma, Xiaofei

doi:10.1002/ece3.6668

Cited by 6 publications

(7 citation statements)

References 70 publications

(131 reference statements)

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“…Stepwise regression analyses further indicated that variation in leaf length variation was mainly affected by latitude. These indicate that R. soongarica preferentially changes leaf length to adjust leaf size to cope with environmental change (Fan et al, 2020). Low salt stress condition (200 mM) signifcantly promoted the vegetative growth in total leaf area, total fresh weight, and root shoot ratio of R. soongorica seedlings .…”

Section: Physiological Levelmentioning

confidence: 80%

“…Morphological traits: Drought is one of the detrimental environmental stresses that affect morphological growth in plants. Fan et al (2020) used 30 wild populations of R. soongarica and 16 populations grown in a common garden as material to reveal the influence of genetic and ecological factors on leaf morphology. The study revealed that leaf length, width, and leaf length to width ratio (L/W) of the northern lineage were significantly larger than other genetic lineages based on principal component analysis.…”

Section: Physiological Levelmentioning

confidence: 99%

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Reaumuria soongorica-plant model to understand drought adaptive mechanisms of xerophyte and their potentials in improving stress tolerance in plants

M.¹,

Liu²,

Wang³

et al. 2023

JEB

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Reaumuria soongorica plays critical role in withstanding wind-induced soil erosion and combating desertification due to its unique drought adaptive networks involved in physiological, morphological, biochemical, and molecular biological levels. This review was conceived to summarize the most updated information on drought adaptive mechanisms of R. soongorica to formulate valuable strategies for non-xerophytes crop species to be drought tolerant. Research indicates that R. soongorica can be drought resistant via posing a high root to shoot ratio, having salt secreting gland, subsidized stomata, hard leaf texture, pallet leaf shape, high seeds viability, actively working antioxidative enzymes, secondary metabolites, phytohormones, and differentially expressed drought resistant genes. These characteristics interlink at morpho-physiological, biochemical, metobolic, molecular, and genetic level in R. soongorica to adapt the extreme abitotic stress conditions in desert regions as a plant model in xerophyte. The potentials of using the genetic elements in R. soongorica to produce drought tolerant crop species for yield production on growing on marginal lands could be vital for maintaining future food security. However, functional gene cloning and their transformation in crop species should be conducted as pre-requisite. Key words: Abiotic stress, Crop improvement, Drought adaptive mechanisms, Reaumuria soongorica, Xerophytes

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Section: Physiological Levelmentioning

confidence: 80%

Section: Physiological Levelmentioning

confidence: 99%

Reaumuria soongorica-plant model to understand drought adaptive mechanisms of xerophyte and their potentials in improving stress tolerance in plants

M.¹,

Liu²,

Wang³

et al. 2023

JEB

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“…Specifically, annual average temperature and annual average precipitation are highly correlated with latitude, and are thought to be important drivers underlying the relationship between leaf traits and latitude [40]. As early as the 19th century, biogeographers noticed that leaves in low latitudes were usually larger in size [41], with leaf size decreasing with increases in altitude [42]. However, the relationship between leaf size and environmental factors is not fixed, and may vary in different regions or different species [41].…”

Section: Introductionmentioning

confidence: 99%

“…As early as the 19th century, biogeographers noticed that leaves in low latitudes were usually larger in size [41], with leaf size decreasing with increases in altitude [42]. However, the relationship between leaf size and environmental factors is not fixed, and may vary in different regions or different species [41]. Leaf area and specific leaf area (SLA) are related to plant photosynthesis and primary productivity, which is very important for understanding plant responses to climate change [43]; while leaf nutrient content affects nutrient cycling in forests [37].…”

Section: Introductionmentioning

confidence: 99%

Variation in Leaf Functional and Plant Defense Traits of Introduced Eucalyptus Species across Environmental Gradients in Their New Range in Southern China

Liu

Rutherford

Wan

et al. 2023

Forests

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Due to the rapid development of China’s economy, the demand for wood is steadily increasing. Eucalyptus species have been introduced in large quantities because of their fast growth, strong adaptability, and wide utility. To understand the phenological changes in introduced Eucalyptus in its new range, we carried out a field investigation to examine leaf functional and chemical defense traits of three introduced species (E. saligna, E. grandis and E. robusta) over latitudinal and altitudinal gradients in southern China. We sampled multiple stands of each species, and measured the leaf physical characteristics (e.g., leaf width, leaf thickness, and specific leaf area [SLA]), leaf nitrogen (N) and phosphorus (P) content, and phenolic compounds. We found that many functional traits (e.g., leaf size and thickness) decreased at lower latitudes, especially in E. grandis, possibly to reduce heat and water loss under higher temperatures. In E. grandis, we found that leaf P was lower at higher latitudes and altitude, and phenolics increased with elevation, while in E. robusta, both leaf N and P decreased with altitude. These findings suggested that both species were more conservative in resource allocation, with E. grandis possessing enhanced chemical defenses in response to the conditions experienced at higher elevations. In addition, we found the tree populations at the northern range limit of E. robusta had lower SLA, suggesting a more conservative growth strategy, In contrast, small populations in the northern part of the ranges of E. grandis had higher SLA, indicating range expansion at the edge of the species’ geographic distribution. Overall, it is particularly important to consider intraspecific trait differences across wide geographic areas when studying the spread of invasive species in the new range.

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“…While the variability is most often related to functions of photosynthesis [2,6,7] and drought response [8][9][10], leaves have been shown to display variability as a result of numerous climatic influences, including temperature [11][12][13], precipitation [14][15][16] and light conditions [17][18][19][20]. Additionally, the influence of latitude [21,22] and altitude gradient [3] on variations in leaf morphology has been proven. The underlying mechanisms of adaptation are both anatomical and physiological.…”

Section: Introductionmentioning

confidence: 99%

Population Variability of Almond-Leaved Willow (Salix triandra L.) Based on the Leaf Morphometry: Isolation by Distance and Environment Explain Phenotypic Diversity

Tumpa

Šatović

Vidaković

et al. 2022

Forests

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Almond-leaved willow (Salix triandra L., Salicaceae) is a dioecious shrub, rarely a small tree that grows under various environmental conditions. We examined the population structure of 12 populations of almond-leaved willow using nine leaf morphological traits and specific leaf area. Populations were selected from a range of habitats, from continental to the sub-Mediterranean zone, to examine the influence of environmental conditions (climate and altitude) and geographic distance on leaf variability. Significant differences were confirmed among all populations for all traits, with significant correlations between geographic location of populations and morphological traits, and between environmental conditions and morphological traits. Large-leaved populations were found in continental and sub-Mediterranean climates, while small-leaved populations were found in higher elevations and smaller karstic rivers. In addition, populations from floodplains showed greater variability than populations from the karstic habitats, indicating a positive influence of lowland habitats and possible underlying differences in gene pool size. In conclusion, we found that environmental conditions and geographical distances in addition to genetic drift, are the main influences on the variability in almond-leaved willow, with the species showing a high level of plasticity and adaptation to local environmental conditions.

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Leaf size variations in a dominant desert shrub, Reaumuria soongarica, adapted to heterogeneous environments

Cited by 6 publications

References 70 publications

Reaumuria soongorica-plant model to understand drought adaptive mechanisms of xerophyte and their potentials in improving stress tolerance in plants

Reaumuria soongorica-plant model to understand drought adaptive mechanisms of xerophyte and their potentials in improving stress tolerance in plants

Variation in Leaf Functional and Plant Defense Traits of Introduced Eucalyptus Species across Environmental Gradients in Their New Range in Southern China

Population Variability of Almond-Leaved Willow (Salix triandra L.) Based on the Leaf Morphometry: Isolation by Distance and Environment Explain Phenotypic Diversity

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