Little direct effect of diurnal temperature amplitude on growing seasonal CO<sub>2</sub> fluxes in alpine humid shrubland, Qinghai‐Tibetan Plateau

Zhu, Jingbin; Li, Hongqin; Zhang, Fawei; He, Honglin; Li, Yingnian; Yang, Yongsheng; Zhang, Guangru; Wang, Qianqian; Luo, Fanglin

doi:10.1111/1440-1703.12106

Cited by 5 publications

(6 citation statements)

References 33 publications

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“…Low temperature, low partial pressure of oxygen and large and rapid weather changes are also among the main factors limiting the survival of alpine plants. (Zhu et al 2020). In the face of harsh environments, plants adapt to harsh alpine environments by modifying their morphology, producing specific metabolites and changing the distribution pattern of biomass (Sun et al 2014H;u 2016;Abbas et al 2022).…”

Section: Discussionmentioning

confidence: 99%

The first high-altitude autotetraploid haplotype-resolved genome assembled (Rhododendron nivale subsp. boreale) provides new insights into mountaintop adaptation

Lyu,

Zhou,

Wang

et al. 2023

Preprint

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Rhododendron nivale subsp. boreale Philipson et M. N. Philipson is a kind of ornamental alpine woody flower from mountaintop scrub at an altitude of approximately 4000 meters. Despite ecological significance, the lack of genomic resources has hindered a comprehensive understanding of its evolutionary and adaptive characteristics in high-altitude environments. In this work, we sequenced and assembled the genome of R. nivale subsp. boreale, which is an assembly of the first subgenus Rhododendron and the first high-altitude woody flowering autotetraploid. The assembly included 52 pseudochromosomes, which belonged to 4 haplotypes, harbor 127,810 predicted protein-coding genes. Comparative genomic analysis revealed that R. nivale subsp. boreale originated as a neopolyploid resulting from R. nivale and experienced two rounds of ancient polyploidy event. Transcriptional expression analysis showed that the expression differences of alleles were common, randomly distributed in the genome. We identified signatures of positive selection involved not only in adaptations to mountaintop ecosystem (response to UV radiation and developmental regulation), but also in strategy of autotetraploid reproduction (meiotic stabilization). Notably, highly expressed ERF VIIs aid survival in hypoxic mountaintop environments. Meanwhile, the expanded families was enriched in brassinosteroid (BR) biosynthesis, which enhances adaptability to the dramatic changes in alpine weather, is likely mediated by the increased number of cytochrome P450 (CYP) genes. This valuable genome of mountaintop woody flowering autotetraploids not only provides genetic resources for studying high-altitude polyploid formation but also provides new insights for understanding the evolution and adaptation mechanism of high-altitude plants.

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Section: Discussionmentioning

confidence: 99%

The first high-altitude autotetraploid haplotype-resolved genome assembled (Rhododendron nivale subsp. boreale) provides new insights into mountaintop adaptation

Lyu,

Zhou,

Wang

et al. 2023

Preprint

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“…NEE is an important indicator to measure the carbon balance of ecosystems. It is the result of the balance between the total photosynthesis and total respiration of an ecosystem [38]. Zhang et al [39] used a novel geospatial agricultural modeling system to calculate the NPP of crops, so as to estimate the NEE of arable land ecosystems.…”

Section: Related Concepts Of Carbon In Ecosystemsmentioning

confidence: 99%

“…The research has taken place on global, national and provincial scales [24,26,27], and has gradually extended to the county scale with the deepening of research methods and the enrichment of data sources [28]. The research has gradually expanded from forestland, shrubland and grassland ecosystems to arable land ecosystems [23,25,[29][30][31]. Most studies on the carbon cycle of arable land ecosystems focus on soil carbon, mechanisms and the calculation of agricultural carbon emissions and the influencing factors [16,32].…”

Section: Introductionmentioning

confidence: 99%

A Review on Carbon Source and Sink in Arable Land Ecosystems

Liu

Wang

Zhuang

et al. 2022

Land

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Arable land ecosystems are among the most important terrestrial systems. The issues of carbon sequestration and emission reductions in arable land ecosystems have received extensive attention. Countries around the world have actively issued policies to manage arable land ecosystems. At present, more than 100 countries have made carbon neutralization target commitments. Various arable land management measures and arable land planting strategies have important impacts on the carbon storage of arable land ecosystems. Research on arable land carbon is of great significance to global climate change. This study attempts to investigate the problems and deficiencies in the current research by summarizing a number of studies, including the main methods for the quantitative research of carbon sources and sinks as well as the influencing factors in these ecosystems. In this study, it is found that due to the differences of climate patterns, soil properties and management practices in arable land ecosystems, the factors affecting carbon sources and sinks are of great heterogeneity and complexity. Generally, variations in natural factors affect the carbon balance in different regions, while human management measures, such as irrigation, fertilization and the degree of agricultural mechanization, are the leading factors causing changes to carbon sources and sinks in these ecosystems. In addition, there are still great uncertainties in the evaluation of carbon sources and sinks in these ecosystems caused by different estimation models and methods. Therefore, emphasis should be placed on model parameter acquisition and method optimization in the future. This review provides a scientific basis for understanding carbon sources and sinks in arable land ecosystems, enhancing their carbon sink capacity and guiding low-carbon agriculture on arable land.

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“…A high MDT is conducive to the accumulation of organic matter for plants. For alpine shrubs on the Qinghai-Tibet Plateau of China, increase in MDT is conducive to the accumulation of organic matters and improves aboveground productivity (Zhu et al, 2020). A certain degree of MDT treatment can promote the bolting, budding, flowering, and flower bud differentiation of radishes, as well as axillary bud germination and branching, and the longer the treatment time is, the more obvious the promotion effect is (Pei et al, 2018).…”

Section: Interannual Differences In Plant Traits and The Influencing ...mentioning

confidence: 99%

Spatiotemporal variations in the growth status of declining wild apple trees in a narrow valley in the western Tianshan Mountains, China

et al. 2022

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Malus sieversii (wild apple tree), only distributed in the Tianshan Mountains in Central Asia, is a tertiary relic species and an ancestral species of cultivated apples. However, existing natural populations of wild apple trees have been declining. To date, spatiotemporal variations in the growth status of declining wild apple trees and influencing factors in the narrow valley areas in the Tianshan Mountains remain unclear. In this study, field investigation and sampling were carried out in three years (2016)(2017)(2018) at four elevations (1300, 1400, 1500, and 1600 m) in the Qiaolakesai Valley (a typical longitudinal narrow valley in the Yili River Valley) of the western Tianshan Mountains in Xinyuan County, Xinjiang Uygur Autonomous Region, China. Projective coverage, dead branch percentage, and 18 twig traits (these 20 parameters were collectively referred to as plant traits) were determined to comprehensively reflect the growth status of declining wild apple trees. The values of dead branch percentage ranged from 36% to 59%, with a mean of 40%. Year generally showed higher impact on plant traits than elevation. In 2017 and 2018, projective coverage, leaf size, leaf nitrogen concentration, and nitrogen to phosphorous ratio were markedly higher than those in 2016. However, dead branch percentage and leaf and stem phosphorous concentrations showed the opposite trend. Most of the topological parameters of plant trait networks differed in the three years, but the strength of trait-trait association increased year by year. The mean difference between day and night temperatures (MDT), annual accumulative precipitation, soil electrical conductivity, and soil pH had the greatest impact on the plant trait matrix. The growth status of declining wild apple trees was directly and positively affected by MDT and leaf size. In conclusion, the growth of declining wild apple trees distributed in the narrow valley areas was more sensitive to interannual environmental changes than elevation changes. The results are of great significance for further revealing the decline mechanism of wild apple trees in the Tianshan Mountains.

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Little direct effect of diurnal temperature amplitude on growing seasonal CO₂ fluxes in alpine humid shrubland, Qinghai‐Tibetan Plateau

Cited by 5 publications

References 33 publications

The first high-altitude autotetraploid haplotype-resolved genome assembled (Rhododendron nivale subsp. boreale) provides new insights into mountaintop adaptation

The first high-altitude autotetraploid haplotype-resolved genome assembled (Rhododendron nivale subsp. boreale) provides new insights into mountaintop adaptation

A Review on Carbon Source and Sink in Arable Land Ecosystems

Spatiotemporal variations in the growth status of declining wild apple trees in a narrow valley in the western Tianshan Mountains, China

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Little direct effect of diurnal temperature amplitude on growing seasonal CO2 fluxes in alpine humid shrubland, Qinghai‐Tibetan Plateau

Cited by 5 publications

References 33 publications

The first high-altitude autotetraploid haplotype-resolved genome assembled (Rhododendron nivale subsp. boreale) provides new insights into mountaintop adaptation

The first high-altitude autotetraploid haplotype-resolved genome assembled (Rhododendron nivale subsp. boreale) provides new insights into mountaintop adaptation

A Review on Carbon Source and Sink in Arable Land Ecosystems

Spatiotemporal variations in the growth status of declining wild apple trees in a narrow valley in the western Tianshan Mountains, China

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Little direct effect of diurnal temperature amplitude on growing seasonal CO₂ fluxes in alpine humid shrubland, Qinghai‐Tibetan Plateau