Topochemical Correlation between Carbohydrates and Lignin in Eucommia ulmoides Cell Wall from Tissue to Cell Level

Jin, Kexia; Cui, Heshuai; Liu, Xinge; Ma, Jianfeng

doi:10.15376/biores.12.1.1064-1076

Cited by 3 publications

(1 citation statement)

References 31 publications

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“…This may be attributed, to some extent, to the longer photosynthetic time during the daytime on the former than the latter. This accumulated more non-structural carbohydrates, increasing the contents of insoluble secondary wall structural carbohydrates and lignin, further resulting in a higher plant fiber content (Jin et al, 2017). Mineral elements are indispensable nutrients for the growth and development of forage plants and play a key role in cell division ( Brengi et al, 2022), protein synthesis (Johnson et al, 2022), metabolism (Sadeghi et al, 2021), and redox processes (Tavanti et al, 2020).…”

Section: Discussionmentioning

confidence: 99%

Forage plants in grasslands with different topographies affect yak foraging preferences on the eastern Tibetan plateau

Wang,

Cao,

Shi

et al. 2024

Front. Plant Sci.

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Diet selection, a core problem of foraging behavior, is a nutritional adaptation strategy formed in the long-term natural selection process by grazing herbivores and is significant for the sustainable management of grassland. Studies have mainly focused on the impacts of the individual and whole community spatial characteristics and herbivore body status on herbivore foraging behavior; thus, the response and mechanism of forage plants in different terrains to the diet selection of grazing herbivores remains unclear. Therefore, in this study, forage plants (gramineae, cyperaceae, legume, forbs, edible shrubs, and community) in different topographies (terrace, riparian zones, shady slope, half shady slope, half sunny slope, sunny slope) on the eastern Tibetan plateau were selected to study changes in nutrient and mineral content characteristics of forage plants, as well as the difference in feeding bias of yaks for forage plants in different terrains by using an indoor cafeteria trial. A structural equation model was used to illustrate the impact of the forage plants in different terrains on the feeding bias of yak. The multi-criterion decision model TOPSIS showed that the nutritional value of gramineae was highest for the shaded slope, and that of cyperaceae and leguminosae was the highest for the terraces. The nutrient value of forbs and the whole community was highest for the sunny slope. Dry matter intake by yaks of leguminosae, forbs, and the whole plant community was significantly higher for terraces than for grasslands with other topographies, and all were significantly lower in riparian zones. Yak forage preference of leguminosae, forbs, and the whole community was the highest for the terrace and the lowest for the riparian zones. Structural equation modeling showed that for functional groups, the interactions between topography and functional groups were the drivers influencing yak forage preferences. Our study highlights the propensity of yaks to forage for plants in areas with different topographies. These results have provided a scientific basis for understanding the relationship between herbivores and plants in grasslands and for formulating scientific grazing management strategies, which are of considerable importance for sustainable grassland livestock husbandry.

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Section: Discussionmentioning

confidence: 99%

Forage plants in grasslands with different topographies affect yak foraging preferences on the eastern Tibetan plateau

Wang,

Cao,

Shi

et al. 2024

Front. Plant Sci.

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The deposition of carbohydrates and lignin in the cell walls of Calamus simplicifolius during development

et al. 2021

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Imaging the dynamic deposition of cell wall polymer in xylem and phloem in Populus × euramericana

Jin

Liu

Wang

et al. 2018

Planta

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Both G units and S units deposited in the whole lignification process of xylem fiber. The topochemical variations in newly formed xylem and phloem of Populus × euramericana were investigated by combined microscopic techniques. During xylem formation, earlier cell wall deposition in vessel and afterwards in the neighboring fiber was observed in situ. Raman images in xylem fiber emphasized that cell wall deposition was an ordered process which lignification started in cell corner following carbohydrates deposition. Higher deposition speed of carbohydrates was revealed at the beginning of the cell wall differentiation, and the syringyl (S) units deposition was more pronounced compared with guaiacyl (G) units at the earlier stage of lignification. The comparative analysis of cell wall composition in phloem fiber indicated that phloem formed earlier than xylem and the distribution of lignin monomers varied significantly with phloem fiber location. Furthermore, an interesting phenomenon was found that the outermost phloem fiber near the periderm displayed a multilayered structure with alternating broad and narrow layer, and the broad lamellae showed higher concentration of carbohydrates and S lignin. The cytological information including cell wall composition and lignin structure of xylem and phloem might be helpful to understand the wood growth progresses and facilitate utilization of woody plants.

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Topochemical Correlation between Carbohydrates and Lignin in Eucommia ulmoides Cell Wall from Tissue to Cell Level

Cited by 3 publications

References 31 publications

Forage plants in grasslands with different topographies affect yak foraging preferences on the eastern Tibetan plateau

Forage plants in grasslands with different topographies affect yak foraging preferences on the eastern Tibetan plateau

The deposition of carbohydrates and lignin in the cell walls of Calamus simplicifolius during development

Imaging the dynamic deposition of cell wall polymer in xylem and phloem in Populus × euramericana

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