Differential Regulation of Amino Acids and Nitrogen for Drought Tolerance and Poststress Recovery in Creeping Bentgrass

IF 1.2 4区农林科学 Q3 HORTICULTURE

Journal of the American Society for Horticultural Science Pub Date : 2022-07-01 DOI:10.21273/jashs05215-22

C. Chapman, S. Rossi, Bo Yuan, Bingru Huang

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引用次数: 0

Abstract

Effects of amino acids and nitrogen on plant regrowth or recovery from drought stress remain largely unknown. The objectives of this study were to examine how gamma-aminobutyric acid (GABA) or proline, alone and in combination, or inorganic nitrogen [ammonium nitrate (NN)] may differentially affect turf performance during drought stress and rewatering, and to determine which specific endogenous amino acids regulated by GABA, proline, or NN priming were associated with plant tolerance to drought stress and postdrought recuperation in cool-season grass species. Creeping bentgrass (Agrostis stolonifera cv. Penncross) planted in porous ceramic fritted clay medium were exposed to well-watered conditions or drought stress by withholding irrigation for 21 days in growth chambers. Plants were treated with water (untreated control), GABA, or proline alone and in combination, or NN through foliar spray before drought stress and every 7 days during the 21-day stress period. For postdrought recovery, at 21 days of drought treatment, plants were rewatered for 14 days to return soil water content to prestress levels. Plants treated with GABA or proline alone or in combination maintained higher turf quality (TQ), dark green color index (DGCI), and stolon length by 21 days of drought stress, whereas proline-treated plants also maintained higher leaf relative water content (RWC) during drought as well as longer stolon length during rewatering. Plants treated with NN maintained higher TQ and leaf RWC during drought and had improved percent canopy cover, DGCI, and stolon length during postdrought rewatering. Accumulation of endogenous amino acids under drought stress, including proline and alanine, for proline-treated creeping bentgrass may have contributed to the enhancement of drought tolerance and postdrought regrowth. Nitrogen-enhanced accumulation of GABA, proline, and glutamic acid may have played a role in active amino acid assimilation and subsequent postdrought regrowth. Results from this study indicate that GABA or proline were mainly effective in promoting the tolerance of creeping bentgrass to drought stress while inorganic NN was effective in promoting rapid postdrought recovery and regrowth potential through the activation of amino acid metabolism. Endogenous amino acids, including GABA, proline, alanine, and glutamic acid, may be used as biomarkers to select for drought-tolerant plants and biostimulant components for improvement of drought stress tolerance and poststress recovery in cool-season turfgrass species.

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氨基酸和氮对匍匐Bentless耐旱性和胁迫后恢复的差异调节

氨基酸和氮对植物再生或从干旱胁迫中恢复的影响在很大程度上仍然未知。本研究的目的是研究γ-氨基丁酸（GABA）或脯氨酸（单独和组合）或无机氮[硝酸铵（NN）]如何在干旱胁迫和复水期间对草坪性能产生不同影响，并确定哪些特定的内源性氨基酸受GABA、脯氨酸、，或NN启动与冷季草本植物对干旱胁迫的耐受性和干旱后的恢复有关。在多孔陶瓷烧结粘土培养基中种植的匍匐bentgrass（Agrostis stolonifera cv.Penncross）通过在生长室中停止灌溉21天而暴露于良好的浇水条件或干旱胁迫下。在干旱胁迫前和21天的胁迫期内，通过叶面喷雾，用水（未处理的对照）、GABA或脯氨酸单独或组合，或NN处理植物。对于干旱后的恢复，在干旱处理21天时，对植物重新浇水14天，使土壤含水量恢复到预应力水平。单独或联合用GABA或脯氨酸处理的植物在干旱胁迫21天时保持较高的草坪质量（TQ）、深绿色指数（DGCI）和匍匐茎长度，而脯氨酸处理的植株在干旱期间也保持较高的叶片相对含水量（RWC）以及在复水期间保持较长的匍匐茎长度。用NN处理的植物在干旱期间保持较高的TQ和叶片RWC，并在干旱后重新浇水期间改善了冠层覆盖率、DGCI和匍匐茎长度。干旱胁迫下，脯氨酸处理的匍匐底栖草内源氨基酸（包括脯氨酸和丙氨酸）的积累可能有助于增强耐旱性和干旱后的再生。氮增强的GABA、脯氨酸和谷氨酸的积累可能在主动氨基酸同化和随后的干旱后再生中发挥了作用。本研究结果表明，GABA或脯氨酸主要有效地促进匍匐底栖草对干旱胁迫的耐受，而无机NN通过激活氨基酸代谢有效地促进干旱后的快速恢复和再生潜力。内源性氨基酸，包括GABA、脯氨酸、丙氨酸和谷氨酸，可以作为生物标志物来选择耐旱植物和生物刺激成分，以提高冷季草坪草物种的耐旱性和胁迫后恢复。

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来源期刊

Journal of the American Society for Horticultural Science 农林科学-园艺

CiteScore

3.80

自引率

0.00%

发文量

审稿时长

2 months

期刊介绍： The Journal of the American Society for Horticultural Science publishes papers on the results of original research on horticultural plants and their products or directly related research areas. Its prime function is to communicate mission-oriented, fundamental research to other researchers. The journal includes detailed reports of original research results on various aspects of horticultural science and directly related subjects such as: - Biotechnology - Developmental Physiology - Environmental Stress Physiology - Genetics and Breeding - Photosynthesis, Sources-Sink Physiology - Postharvest Biology - Seed Physiology - Postharvest Biology - Seed Physiology - Soil-Plant-Water Relationships - Statistics