Physiological response analysis for the diagnosis of drought and waterlogging damage in Prunus yedoensis

Drought damage and waterlogging damage are the most frequent abiotic injuries throughout the lifespan of trees. Nonetheless, because the signs of visible damage are similar between these types of injury, physiological indicators must be analyzed to make a scientific differential diagnosis. This stud...

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Published in	Forest Science and Technology Vol. 18; no. 1; pp. 14 - 25
Main Authors	Lee, Kyeong-Cheol, Kweon, Hyeongkeun, Sung, Jung-Won, Kim, Yong Suk, Song, Yeong Geun, Cha, Sangsub, Koo, Namin
Format	Journal Article
Language	English
Published	Seoul Taylor & Francis 02.01.2022 Informa UK Limited Taylor & Francis Ltd Taylor & Francis Group 한국산림과학회
Subjects	Absorption Carboxylation Chlorophyll Chlorophyll florescence climate change Damage Diagnosis Differential diagnosis Drought electron transfer Electron transport Energy transfer Forestry forests Indicators Injury analysis leaves Life span longevity Nutritional status Osmoregulation Performance indices Photochemical reactions Photochemicals Photons Photosynthesis physiological response Physiology Prunus yedoensis Reduction root crown root growth Saturation deficit SD1-669.5 Stomata Stomatal conductance Structure-function relationships technology tree height Waterlogging 임학
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ISSN	2158-0103 2158-0715 2158-0715
DOI	10.1080/21580103.2022.2035829

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Abstract	Drought damage and waterlogging damage are the most frequent abiotic injuries throughout the lifespan of trees. Nonetheless, because the signs of visible damage are similar between these types of injury, physiological indicators must be analyzed to make a scientific differential diagnosis. This study was aimed at investigating growth and physiological indicators of drought (DS) and waterlogging stress (WL) in Prunus yedoensis. Overall growth indices such as tree height, diameter at root collar (DRC), and total dry weight could be ranked in the decreasing order "control > DS > WL." In particular, there was a prominent decrease in root growth in WL, and DRC in DS was lower by 9.2% than DRC before the experiment. As for water saturation deficit (WSD) increased to 37.4% by 28 days after treatment initiation (DAT) in DS. WL showed a sharp decline of photosynthetic indicators such as the net photosynthesis rate (A), stomatal conductance (g s ), and maximum carboxylation rate (V cmax ) starting from 7 DAT. By contrast, DS manifested a significant decrease starting from 14 DAT. The DS had higher levels of leaf and root inorganic components than WL did, suggesting an improvement in the osmoregulatory ability. The overall nutritional status of WL was low due to deterioration of the absorption function of the roots. In both DS and WL, energy transfer rates of photochemical reactions, e.g. absorbed photon leads to reduction further than Q A - (Φ PO ), absorbed photon leads to electron transport further than Q A - (Φ EO ), and absorbed photon leads to reduction of Q A - (Ψ O ), decreased, as did vitality indices, e.g. the performance index on absorption basis (PI abs ), driving force on absorption basis (DF abs ), and the structure function index on absorption basis (SFI abs ). However, WL featured a decrease in Electron transport flux from Q A to Q B (ETo/RC) and Electron transport flux until PSI acceptors (REo/RC), whereas DS experienced a slight increase or almost no change. Consequently, PI abs , DF abs , SFI abs , and the drought factor index are highly sensitive environmental-stress indicators, whereas WSD, DRC growth, chlorophyll a content, ETo/RC, and REo/RC appear to have high potential as diagnostic indicators of drought or waterlogging damage.
AbstractList	Drought damage and waterlogging damage are the most frequent abiotic injuries throughout the lifespan of trees. Nonetheless, because the signs of visible damage are similar between these types of injury, physiological indicators must be analyzed to make a scientific differential diagnosis. This study was aimed at investigating growth and physiological indicators of drought (DS) and waterlogging stress (WL) in Prunus yedoensis. Overall growth indices such as tree height, diameter at root collar (DRC), and total dry weight could be ranked in the decreasing order "control > DS > WL." In particular, there was a prominent decrease in root growth in WL, and DRC in DS was lower by 9.2% than DRC before the experiment. As for water saturation deficit (WSD) increased to 37.4% by 28 days after treatment initiation (DAT) in DS. WL showed a sharp decline of photosynthetic indicators such as the net photosynthesis rate (A), stomatal conductance (g s ), and maximum carboxylation rate (V cmax ) starting from 7 DAT. By contrast, DS manifested a significant decrease starting from 14 DAT. The DS had higher levels of leaf and root inorganic components than WL did, suggesting an improvement in the osmoregulatory ability. The overall nutritional status of WL was low due to deterioration of the absorption function of the roots. In both DS and WL, energy transfer rates of photochemical reactions, e.g. absorbed photon leads to reduction further than Q A - (Φ PO ), absorbed photon leads to electron transport further than Q A - (Φ EO ), and absorbed photon leads to reduction of Q A - (Ψ O ), decreased, as did vitality indices, e.g. the performance index on absorption basis (PI abs ), driving force on absorption basis (DF abs ), and the structure function index on absorption basis (SFI abs ). However, WL featured a decrease in Electron transport flux from Q A to Q B (ETo/RC) and Electron transport flux until PSI acceptors (REo/RC), whereas DS experienced a slight increase or almost no change. Consequently, PI abs , DF abs , SFI abs , and the drought factor index are highly sensitive environmental-stress indicators, whereas WSD, DRC growth, chlorophyll a content, ETo/RC, and REo/RC appear to have high potential as diagnostic indicators of drought or waterlogging damage. Drought damage and waterlogging damage are the most frequent abiotic injuries through- out the lifespan of trees. Nonetheless, because the signs of visible damage are similar between these types of injury, physiological indicators must be analyzed to make a scientific differential diagnosis. This study was aimed at investigating growth and physiological indica- tors of drought (DS) and waterlogging stress (WL) in Prunus yedoensis. Overall growth indices such as tree height, diameter at root collar (DRC), and total dry weight could be ranked in the decreasing order “control > DS > WL.” In particular, there was a prominent decrease in root growth in WL, and DRC in DS was lower by 9.2% than DRC before the experiment. As for water saturation deficit (WSD) increased to 37.4% by 28 days after treatment initiation (DAT) in DS. WL showed a sharp decline of photosynthetic indicators such as the net photo- synthesis rate (A), stomatal conductance (gs), and maximum carboxylation rate (Vcmax) start- ing from 7 DAT. By contrast, DS manifested a significant decrease starting from 14 DAT. The DS had higher levels of leaf and root inorganic components than WL did, suggesting an improvement in the osmoregulatory ability. The overall nutritional status of WL was low due to deterioration of the absorption function of the roots. In both DS and WL, energy transfer rates of photochemical reactions, e.g. absorbed photon leads to reduction further than QA- (UPO), absorbed photon leads to electron transport further than QA- (UEO), and absorbed photon leads to reduction of QA- (WO), decreased, as did vitality indices, e.g. the perform- ance index on absorption basis (PIabs), driving force on absorption basis (DFabs), and the structure function index on absorption basis (SFIabs). However, WL featured a decrease in Electron transport flux from QA to QB (ETo/RC) and Electron transport flux until PSI acceptors (REo/RC), whereas DS experienced a slight increase or almost no change. Consequently, PIabs,DFabs, SFIabs, and the drought factor index are highly sensitive environmental-stress indicators, whereas WSD, DRC growth, chlorophyll a content, ETo/RC, and REo/RC appear to have high potential as diagnostic indicators of drought or waterlogging damage. KCI Citation Count: 0 Drought damage and waterlogging damage are the most frequent abiotic injuries throughout the lifespan of trees. Nonetheless, because the signs of visible damage are similar between these types of injury, physiological indicators must be analyzed to make a scientific differential diagnosis. This study was aimed at investigating growth and physiological indicators of drought (DS) and waterlogging stress (WL) in Prunus yedoensis. Overall growth indices such as tree height, diameter at root collar (DRC), and total dry weight could be ranked in the decreasing order “control > DS > WL.” In particular, there was a prominent decrease in root growth in WL, and DRC in DS was lower by 9.2% than DRC before the experiment. As for water saturation deficit (WSD) increased to 37.4% by 28 days after treatment initiation (DAT) in DS. WL showed a sharp decline of photosynthetic indicators such as the net photosynthesis rate (A), stomatal conductance (gₛ), and maximum carboxylation rate (V cₘₐₓ) starting from 7 DAT. By contrast, DS manifested a significant decrease starting from 14 DAT. The DS had higher levels of leaf and root inorganic components than WL did, suggesting an improvement in the osmoregulatory ability. The overall nutritional status of WL was low due to deterioration of the absorption function of the roots. In both DS and WL, energy transfer rates of photochemical reactions, e.g. absorbed photon leads to reduction further than QA ⁻ (ΦPO), absorbed photon leads to electron transport further than QA ⁻ (ΦEO), and absorbed photon leads to reduction of QA ⁻ (ΨO), decreased, as did vitality indices, e.g. the performance index on absorption basis (PIₐbₛ), driving force on absorption basis (DFₐbₛ), and the structure function index on absorption basis (SFIₐbₛ). However, WL featured a decrease in Electron transport flux from QA to QB (ETo/RC) and Electron transport flux until PSI acceptors (REo/RC), whereas DS experienced a slight increase or almost no change. Consequently, PIₐbₛ, DFₐbₛ, SFIₐbₛ, and the drought factor index are highly sensitive environmental-stress indicators, whereas WSD, DRC growth, chlorophyll a content, ETo/RC, and REo/RC appear to have high potential as diagnostic indicators of drought or waterlogging damage. Drought damage and waterlogging damage are the most frequent abiotic injuries throughout the lifespan of trees. Nonetheless, because the signs of visible damage are similar between these types of injury, physiological indicators must be analyzed to make a scientific differential diagnosis. This study was aimed at investigating growth and physiological indicators of drought (DS) and waterlogging stress (WL) in Prunus yedoensis. Overall growth indices such as tree height, diameter at root collar (DRC), and total dry weight could be ranked in the decreasing order “control > DS > WL.” In particular, there was a prominent decrease in root growth in WL, and DRC in DS was lower by 9.2% than DRC before the experiment. As for water saturation deficit (WSD) increased to 37.4% by 28 days after treatment initiation (DAT) in DS. WL showed a sharp decline of photosynthetic indicators such as the net photosynthesis rate (A), stomatal conductance (gs), and maximum carboxylation rate (Vcmax) starting from 7 DAT. By contrast, DS manifested a significant decrease starting from 14 DAT. The DS had higher levels of leaf and root inorganic components than WL did, suggesting an improvement in the osmoregulatory ability. The overall nutritional status of WL was low due to deterioration of the absorption function of the roots. In both DS and WL, energy transfer rates of photochemical reactions, e.g. absorbed photon leads to reduction further than QA- (ΦPO), absorbed photon leads to electron transport further than QA- (ΦEO), and absorbed photon leads to reduction of QA- (ΨO), decreased, as did vitality indices, e.g. the performance index on absorption basis (PIabs), driving force on absorption basis (DFabs), and the structure function index on absorption basis (SFIabs). However, WL featured a decrease in Electron transport flux from QA to QB (ETo/RC) and Electron transport flux until PSI acceptors (REo/RC), whereas DS experienced a slight increase or almost no change. Consequently, PIabs, DFabs, SFIabs, and the drought factor index are highly sensitive environmental-stress indicators, whereas WSD, DRC growth, chlorophyll a content, ETo/RC, and REo/RC appear to have high potential as diagnostic indicators of drought or waterlogging damage.
Author	Kim, Yong Suk Lee, Kyeong-Cheol Song, Yeong Geun Cha, Sangsub Kweon, Hyeongkeun Koo, Namin Sung, Jung-Won
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Snippet	Drought damage and waterlogging damage are the most frequent abiotic injuries throughout the lifespan of trees. Nonetheless, because the signs of visible... Drought damage and waterlogging damage are the most frequent abiotic injuries through- out the lifespan of trees. Nonetheless, because the signs of visible...
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SubjectTerms	Absorption Carboxylation Chlorophyll Chlorophyll florescence climate change Damage Diagnosis Differential diagnosis Drought electron transfer Electron transport Energy transfer Forestry forests Indicators Injury analysis leaves Life span longevity Nutritional status Osmoregulation Performance indices Photochemical reactions Photochemicals Photons Photosynthesis physiological response Physiology Prunus yedoensis Reduction root crown root growth Saturation deficit SD1-669.5 Stomata Stomatal conductance Structure-function relationships technology tree height Waterlogging 임학
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Title	Physiological response analysis for the diagnosis of drought and waterlogging damage in Prunus yedoensis
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ispartofPNX	Forest Science and Technology, 2022, 18(1), 57, pp.14-25
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