Effect of Provenance and Climate on Xylem Anatomy of Haloxylon Ammodendron (C. A. Mey) Bunge in the Gurbantunggut Desert, China

Zhou, Cb

doi:10.15666/aeer/1503_13091321

Cited by 4 publications

(6 citation statements)

References 38 publications

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“…Haloxylon ammodendron is an important afforestation species in the arid desert region both in Asia and Africa. Previous studies have found that the cell wall of ray cells was obviously thickened in the xylem of H. ammodendron, and the wall thickness of the ray cell can be up to 2.85 µm ~ 3.08 µm, which is 3 ~ 6 times the thickness of axial parenchyma and is slightly higher than that of bre (2.64 µm ~ 2.97 µm) (Zhou and Gong 2017). Generally, ray tissue is composed of parenchyma cells, and the wall thickness of ray cells is much thinner than that of bre cells in most species (Plavcová and Jansen 2015).…”

Section: Introductionmentioning

confidence: 86%

“…The climate and growth characteristics of H. ammodendron plantation in the sample area were described by Zhou and Gong (2017). At the end of June 2017, samples were taken in Jinghe (82°53′35″E,44°36′10″N) and Shihezi (86°14′44″E 45°00′34″N) Desert Research and Experimental Station, Shihezi University, in the Gurbantunggut Desert, Xinjiang, China.…”

Section: Sample Location and Samplingmentioning

confidence: 99%

“…Observations under a light microscope and measurements of the wall thickness of ray cells in H. ammodendron were performed as described in Zhou and Gong (2017).…”

Section: Measurement Of Indexesmentioning

confidence: 99%

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Comparative proteomic analysis of thick-walled ray formation of Haloxylon ammodendron in the Gurbantunggut Desert, China

Zhou

Ding

2020

Preprint

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Background The thick-walled ray cells have been reported in Haloxylon ammodendron for the first time. This study measured the wall thickness of ray cells and performed a proteomic analysis of ray cell wall formation in the xylem of H. ammodendron using isobaric tags for relative and absolute quantitation. Results The wall thickness of ray cells in Jinghe (2.85 ± 0.42 µm) was significantly lower than that in Shihezi (3.08 ± 0.44 µm) (P < 0.01). In Shihezi, which has a thicker wall of ray cells than that in Jinghe, 795 differentially expressed proteins were upregulated. Phenylpropanoid biosynthesis, photosynthesis, glycolysis/gluconeogenesis, carbon metabolism, starch and sucrose metabolism, metabolic pathways, etc. promote ray cell wall biosynthesis of the xylem of H. ammodendron by providing substrates or energy. During the process of cell wall biosynthesis in the xylem of H. ammodendron, the nonspecific lipid-transfer protein and beta expansin EXPB2.1 (Mirabilis jalapa] first loosens the cell wall, followed by extension and expansion, and the xyloglucan endotransglycosylase/hydrolase 1 cleaves and links the xyloglucan chains. Then, photosystem I P700 apoprotein A1, reversibly glycosylated polypeptide 1 and GDP-mannose-3′, 5′-epimerase, etc., are involved in cellulose, hemicellulose and pectin biosynthesis of the cell wall by providing components or energy. Finally, the proteins in phenylpropanoid biosynthesis promote the lignification of the ray cell wall and complete the biosynthetic process of the cell wall. Conclusions Phenylpropanoid biosynthesis, photosynthesis, glycolysis/gluconeogenesis, carbon metabolism, starch and sucrose metabolism, metabolic pathways, etc. promote ray cell wall biosynthesis of the xylem of H. ammodendron by providing substrates or energy. The results are important for improving the wood mechanical properties of timber plantations.

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Section: Introductionmentioning

confidence: 86%

Section: Sample Location and Samplingmentioning

confidence: 99%

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Comparative proteomic analysis of thick-walled ray formation of Haloxylon ammodendron in the Gurbantunggut Desert, China

Zhou

Ding

2020

Preprint

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“…In the past, studies on the differences in provenances of forest trees were mainly focused on the growth traits (tree height, DBH) [ 6,7], physiological and biochemical traits [ 8], fitting growth model [ 9,10] and identification of molecular markers related to provenance [ 11]. However, there were few reports on the differences in RNA-Seq between provenances.…”

Section: Introductionmentioning

confidence: 99%

Transcriptome analysis for Fraxinus mandshurica seedlings from different carbon fixation and growth provenances in response to nitrogen deficiency

Zhao¹,

Zhang²,

Liu³

et al. 2019

Preprint

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Background The carbon fixation characteristic of F. mandshurica seedlings from 20 provenances has been evaluated by our research group. In order to explore whether growth and carbon sequestration are related to nutritional adaptability, the foliage and roots of the annual Wuchang (WC) seedlings with high carbon content and Hailin (HL) seedlings with low carbon content which were grown in nitrogen-deficient nutrition and total nutrition were used for RNA-seq determination. Results Eight transcriptome libraries by high-throughput sequence were analysis. 1,235,174,984 clean reads and 88,655 unigenes with N50 length of 1,259 bp were obtained. Under normal nitrogen condition, 783 differentially expressed genes (DEGs) between WC and HL were identified, the number in foliage (669) of DEGs between HL and WC was more than that in roots (149). The number of transcription factors (TFs), hormone, and Protein kinase (PK) genes was significantly more in WC than that in HL. Compared to the normal nitrogen, 8173 DEGs related to nitrogen deficiency were identified and the number of DEGs in roots (6999) was more than that in foliage (1616). Several nitrogen deficiency-related metabolic pathways and many DEGs involved in nitrogen absorption and assimilation, carbon metabolism, hormones, transcription factors and kinases were identified. The numbers of DEGs encoding nitrate transporters, PK, TFs and hormone in WC were less than that in HL, which indicated the response of HL provenance seedlings to nitrogen deficiency was stronger than that of WC provenance seedlings. However, under nitrogen deficiency, the number of up-regulated DEGs in the WC provenance seedlings is more than that in the HL, which indicated that the WC provenance seedlings were more tolerant to nitrogen deficiency than HL. Conclusions The data showed that high carbon content and high growth rate of WC provenance seedlings are mainly attributed to the high transcriptional expression of many metabolic genes in foliage. The response of HL provenance seedlings to nitrogen deficiency is significantly greater than that of WC provenances seedlings, but WC provenance seedlings were more tolerant to nitrogen deficiency than HL. Many genes related to nitrogen deficiency were identified, which will expand our current understanding of nitrogen responses.

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“…If ecologists or environmental scientists are talking about desert ecological research, then almost everyone is thinking about specific desert flora [1][2][3][4][5], fauna [6,7], or desertification itself as a consequence of climate change [8,9], or sand dunes-triggered disasters [10]. In fact, the importance of ecological research in deserts is far more general and wider.…”

Section: Introductionmentioning

confidence: 99%

Introductory Chapter: Global Aspects and Scientific Importance of Desert Ecological Research

Hufnágel¹,

Mics²,

Pálinkás³

et al. 2018

Community and Global Ecology of Deserts

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Effect of Provenance and Climate on Xylem Anatomy of Haloxylon Ammodendron (C. A. Mey) Bunge in the Gurbantunggut Desert, China

Cited by 4 publications

References 38 publications

Comparative proteomic analysis of thick-walled ray formation of Haloxylon ammodendron in the Gurbantunggut Desert, China

Comparative proteomic analysis of thick-walled ray formation of Haloxylon ammodendron in the Gurbantunggut Desert, China

Transcriptome analysis for Fraxinus mandshurica seedlings from different carbon fixation and growth provenances in response to nitrogen deficiency

Introductory Chapter: Global Aspects and Scientific Importance of Desert Ecological Research

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