Physiological and Defense Responses of Tea Plants to Elevated CO2: A Review

Ahammed, Golam Jalal; Li, Xin; Liu, Airong; Chen, Shuangchen

doi:10.3389/fpls.2020.00305

Cited by 39 publications

(17 citation statements)

References 45 publications

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“…Camellia sinensis is a perennial evergreen flowering plant of the genus Camellia in the Camellia family, which has the characteristics of loving a warm and humid climate [1][2][3]. In addition, it can grow regularly at 10-35 • C but becomes nearly dead at −10 • C. Shandong province is a northernmost tea growing region in China and has the highest latitude in tea growing regions of the world except for the Mediterranean climate regions [4].…”

Section: Introductionmentioning

confidence: 99%

Transcriptome and Metabolome Analysis Revealed the Freezing Resistance Mechanism in 60-Year-Old Overwintering Camellia sinensis

Wang

et al. 2021

Biology

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Freezing stress in winter is the biggest obstacle to the survival of C. sinensis in mid-latitude and high-latitude areas, which has a great impact on the yield, quality, and even life of C. sinensis every year. In this study, transcriptome and metabolome were used to clarify the freezing resistance mechanism of 60-year-old natural overwintering C. sinensis under freezing stress. Next, 3880 DEGs and 353 DAMs were obtained. The enrichment analysis showed that pathways of MAPK and ABA played a key role in the signal transduction of freezing stress, and Pyr/PYL-PP2C-SnRK2 in the ABA pathway promoted stomatal closure. Then, the water holding capacity and the freezing resistance of C. sinensis were improved. The pathway analysis showed that DEGs and DAMs were significantly enriched and up-regulated in the three-related pathways of phenylpropanoid biosynthesis, flavone and flavonol biosynthesis, and flavonoid biosynthesis. In addition, the carbohydrate and fatty acid synthesis pathways also had a significant enrichment, and the synthesis of these substances facilitated the freezing resistance. These results are of great significance to elucidate the freezing resistance mechanism and the freezing resistance breeding of C. sinensis.

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Section: Introductionmentioning

confidence: 99%

Transcriptome and Metabolome Analysis Revealed the Freezing Resistance Mechanism in 60-Year-Old Overwintering Camellia sinensis

Wang

et al. 2021

Biology

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“…Researchers have predicted that the distribution range of plant species will change in response to altered climate conditions 10 , 11 . Every plant species and ecotype express phenotypic plasticity in response to altered climate conditions 12 – 15 .…”

Section: Introductionmentioning

confidence: 99%

Flowering season of vernal herbs is shortened at elevated temperatures with reduced precipitation in early spring

Nam

Kim

2020

Sci Rep

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Vernal herbs are exposed to the risk of climate change under spring frost and canopy closure. Although vernal herbs contribute to the biodiversity of the understorey layer in temperate forests, few studies assessed the effect of climate change on the phenology of the herbs. To examine phenological shifts in flowering seasons of vernal herb species caused by climate change, a greenhouse experiment was conducted using four species (Adonis amurensis, Hepatica nobilis var. japonica, Viola phalacrocarpa, and Pulsatilla cernua) under two temperature conditions (ambient or elevated temperature) and two precipitation conditions (convective or reduced precipitation). Experimental warming advanced overall aspects of the flowering timing including the first and last day of flowering. The growth of flowering stalk was also promoted by elevated temperature. Effects of decreased precipitation varied among species, which advanced the last day of the flowering of the later flowering species. Consequently, a decrease in overall flowering period length was observed. These results indicate that overall, climate change results in a shortening of the flowering season of vernal herb species, specifically at a higher temperature and under conditions of less precipitation.

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“…Elicitation is one of the most effective methods to enhance the accumulation of secondary metabolites in plants [38][39][40][41][42] . Some biotic elicitors or physical stimulations are always used to improve the production of secondary metabolites in vitro 43 .…”

Section: Discussionmentioning

confidence: 99%

Influence of different elicitors on BIA production in Macleaya cordata

Huang

Xia

Zhou

et al. 2021

Sci Rep

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Sanguinarine (SAN) and chelerythrine (CHE) have been widely used as substitutes for antibiotics for decades. For a long time, SAN and CHE have been extracted from mainly Macleaya cordata, a plant species that is a traditional herb in China and belongs to the Papaveraceae family. However, with the sharp increase in demand for SAN and CHE, it is necessary to develop a new method to enhance the supply of raw materials. Here, we used methyl jasmonate (MJ), salicylic acid (SA) and wounding alone and in combination to stimulate aseptic seedlings of M. cordata at 0 h, 24 h, 72 h and 120 h and then compared the differences in metabolic profiles and gene expression. Ultimately, we found that the effect of using MJ alone was the best treatment, with the contents of SAN and CHE increasing by 10- and 14-fold, respectively. However, the increased SAN and CHE contents in response to combined wounding and MJ were less than those for induced by the treatment with MJ alone. Additionally, after MJ treatment, SAN and CHE biosynthetic pathway genes, such as those encoding the protopine 6-hydroxylase and dihydrobenzophenanthridine oxidase enzymes, were highly expressed, which is consistent with the accumulation of SAN and CHE. At the same time, we have also studied the changes in the content of synthetic intermediates of SAN and CHE after elicitor induction. This study is the first systematic research report about using elicitors to increase the SAN and CHE in Macleaya cordata.

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Physiological and Defense Responses of Tea Plants to Elevated CO2: A Review

Cited by 39 publications

References 45 publications

Transcriptome and Metabolome Analysis Revealed the Freezing Resistance Mechanism in 60-Year-Old Overwintering Camellia sinensis

Transcriptome and Metabolome Analysis Revealed the Freezing Resistance Mechanism in 60-Year-Old Overwintering Camellia sinensis

Flowering season of vernal herbs is shortened at elevated temperatures with reduced precipitation in early spring

Influence of different elicitors on BIA production in Macleaya cordata

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