Growing in Mixed Stands Increased Leaf Photosynthesis and Physiological Stress Resistance in Moso Bamboo and Mature Chinese Fir Plantations

Peng, Chunju; YanDong, Song; Li, Chong; Mei, Tingting; Wu, Zhen; Shi, Yongjun; Zhou, Yongqiang; Zhou, Guomo

doi:10.3389/fpls.2021.649204

Cited by 10 publications

(7 citation statements)

References 85 publications

(158 reference statements)

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“…The leaf photosynthetic capacity decreased with increasing culm age; however, the isoprene emission rate followed the order of young >old >and mature plants. The effects of culm age on photosynthesis observed in our study are consistent with those of previous studies ( Kleinhenz and Midmore, 2001 ; Peng et al., 2021 ). As expected, young plants had the highest isoprene emission rate because the biosynthesis of isoprene is based on a photosynthetically fixed carbon ( Niinemets et al., 2002 ; Jardine et al., 2014 ; de Souza et al., 2018 ).…”

Section: Discussionsupporting

confidence: 93%

“…Owing to a lack of secondary development and the blocking of xylem vessels by tyloses, aged culms are particularly susceptible to xylem dysfunction; this can lead to a progressive loss of photosynthates, nutrients, and conductivity for water and, eventually, culm mortality ( Liese and Weiner, 1996 ). Moreover, leaf morphology ( Hu et al., 2021 ) and photosynthesis ( Kleinhenz and Midmore, 2001 ; Peng et al., 2021 ) depend not only on the leaf age but also on the culm age. However, whether culm age affects leaf isoprene emissions is unclear.…”

Section: Introductionmentioning

confidence: 99%

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Age effects of Moso bamboo on leaf isoprene emission characteristics

YanDong

Peng²,

Wu³

et al. 2023

Front. Plant Sci.

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Isoprene is a highly reactive volatile organic compound that significantly affects atmospheric oxidant capacity, regional air quality, and climate change. Moso bamboo (Phyllostachys edulis), a species widely distributed in tropical and subtropical regions, particularly in China, is a strong isoprene emitter with great potential for carbon sequestration. Carbon sequestration is negatively correlated with culm age; however, the effect of this correlation on isoprene emissions remains unknown. In this study, we investigated the photosynthetic and isoprene emission characteristics of Moso bamboo at different culm ages. The results showed that the age effect on isoprene emission was different from that on photosynthesis; the net photosynthesis rate (Pn) was the highest in young, followed by mature, and then old bamboo, whereas the isoprene emission rate (Iso) was the highest in young, followed by old, and then mature bamboo. Moreover, the percentage of carbon loss as isoprene emission (C-loss) during photosynthesis of old bamboo was 35% higher than that of mature bamboo under standard conditions (leaf temperature: 30°C; light intensity: 1000 µmol m-2 s-1). Therefore, we strongly recommend considering the culm age when establishing an isoprene emission model of Moso bamboo. Additionally, because the Iso and C-loss of old bamboo were higher than those of mature bamboo, we suggest that attention should be paid to the management of bamboo age structure and timely felling of aged bamboo to reduce environmental risk.

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Section: Discussionsupporting

confidence: 93%

Section: Introductionmentioning

confidence: 99%

Age effects of Moso bamboo on leaf isoprene emission characteristics

YanDong

Peng²,

Wu³

et al. 2023

Front. Plant Sci.

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“…Most of the distribution area, including the center area, of three Fritillaria species received the influence of monsoon from the Indian and Pacific oceans and has sufficient precipitation from May to September. Water was reported to play an essential role in root growth ( Sharma et al, 2021 ), seed dormancy and germination ( Sheppard et al, 2014 ), and leaf growth and photosynthesis ( Peng et al, 2021 ). Water deficiency would activate transcription factors and thus promote the expression of stress-related genes ( Van Beek et al, 2021 ), whereas sufficient water would increase stomatal and leaf area ( Mozo et al, 2021 ) and promote dormancy and germination ( Chritine et al, 2014 ; Sheppard et al, 2014 ).…”

Section: Discussionmentioning

confidence: 99%

Modeling of the Potential Geographical Distribution of Three Fritillaria Species Under Climate Change

et al. 2022

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Fritillaria species, a well-known Chinese traditional medicine for more than 2,000 years, have become rare resources due to excessive harvesting. In order to balance the economical requirement and ecological protection of Fritillaria species, it is necessary to determine (1) the important environmental variables that were responsible for the spatial distribution, (2) distribution change in response to climate change in the future, (3) ecological niche overlap between various Fritillaria species, and (4) the correlation between spatial distribution and phylogenies as well. In this study, the areas with potential ecological suitability for Fritillaria cirrhosa, Fritillaria unibracteata, and Fritillaria przewalskii were predicted using MaxEnt based on the current occurrence records and bioclimatic variables. The result indicated that precipitation and elevation were the most important environmental variables for the three species. Moreover, the current suitable habitats of F. cirrhosa, F. unibracteata, and F. przewalskii encompassed 681,951, 481,607, and 349,199 km2, respectively. Under the scenario of the highest concentration of greenhouse gas emission (SSP585), the whole suitable habitats of F. cirrhosa and F. przewalskii reach the maximum from 2021 to 2100, while those of F. unibracteata reach the maximum from 2021 to 2100 under the scenario of moderate emission (SSP370) from 2021 to 2100. The MaxEnt data were also used to predict the ecological niche overlap, and thus high overlap occurring among three Fritillaria species was observed. The niche overlap of three Fritillaria species was related to the phylogenetic analysis despite the non-significance (P > 0.05), indicating that spatial distribution was one of the factors that contributed to the speciation diversification. Additionally, we predicted species-specific habitats to decrease habitat competition. Overall, the information obtained in this study provided new insight into the potential distribution and ecological niche of three species for the conservation and management in the future.

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“…10,11 Moso bamboo efficiently utilizes light energy to synthesize essential organic matter, contributing significantly to its rapid growth. 12 It has been reported that young bamboo shoots will perish within 10 days under complete shading treatment, 13 which highlights the importance of light for the growth of Moso bamboo. Currently, there have been notable advancements in the examination of light regulation in Moso bamboo.…”

Section: Introductionmentioning

confidence: 99%

“…Presently, research on Moso bamboo predominantly centers on both biotic and abiotic stresses that impact its yield, including factors such as disease infestation, drought, soil salinity, temperature, and high light . Light, as a critical factor, serves not only as an energy source for photosynthesis in plants but also plays a crucial role in regulating the growth and development of plants. , Moso bamboo efficiently utilizes light energy to synthesize essential organic matter, contributing significantly to its rapid growth . It has been reported that young bamboo shoots will perish within 10 days under complete shading treatment, which highlights the importance of light for the growth of Moso bamboo.…”

Section: Introductionmentioning

confidence: 99%

Integrating Physiological Features and Proteomic Analyses Provides New Insights in Blue/Red Light-Treated Moso Bamboo (Phyllostachys edulis)

Zhang,

Tang,

et al. 2024

J. Agric. Food Chem.

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Bamboo is one of the most important nontimber forestry products in the world. Light is not only the most critical source of energy for plant photosynthesis but also involved in regulating the biological processes of plants. However, there are few reports on how blue/red light affects Moso bamboo. This study investigated the growth status and physiological responses of Moso bamboo (Phyllostachys edulis) to blue/red light treatments. The growth status of the bamboo plants was evaluated, revealing that both blue- and red-light treatments promoted plant height and overall growth. Gas exchange parameters, chlorophyll fluorescence, and enzyme activity were measured to assess the photosystem response of Moso bamboo to light treatments. Additionally, the blue light treatment led to a higher chlorophyll content and enzyme activities compared to the red light treatment. A tandem mass tag quantitative proteomics approach identified significant changes in protein abundance under different light conditions with specific response proteins associated with distinct pathways, such as photosynthesis and starch metabolism. Overall, this study provides valuable insights into the physiological and proteomic responses of Moso bamboo to blue/red light treatments, highlighting their potential impact on growth and development.

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Growing in Mixed Stands Increased Leaf Photosynthesis and Physiological Stress Resistance in Moso Bamboo and Mature Chinese Fir Plantations

Cited by 10 publications

References 85 publications

Age effects of Moso bamboo on leaf isoprene emission characteristics

Age effects of Moso bamboo on leaf isoprene emission characteristics

Modeling of the Potential Geographical Distribution of Three Fritillaria Species Under Climate Change

Integrating Physiological Features and Proteomic Analyses Provides New Insights in Blue/Red Light-Treated Moso Bamboo (Phyllostachys edulis)

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