Leaf, Root, and Crown Tissue Physiology of Annual Bluegrass after Cold Acclimation at Varying Soil Moisture Levels and Ice Encasement

IF 1.2 4区农林科学 Q3 HORTICULTURE

Journal of the American Society for Horticultural Science Pub Date : 2023-05-01 DOI:10.21273/jashs05288-22

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引用次数: 0

Abstract

Annual bluegrass (Poa annua) is a turfgrass species prone to winterkill-induced damage such as from ice encasement stress. This research aimed to determine whether different levels of soil volumetric water content (SWC) influence cold acclimation and recovery from ice encasement. Annual bluegrass was exposed to 8%, 12%, and 20% SWC treatments during cold acclimation in growth chambers. After cold acclimation, plants were subjected to ice encasement by misting at –3 °C until a 2.5-cm ice layer was formed. On 0 (no ice encasement exposure), 40, and 80 days of treatment, plants were analyzed for recovery (percent green canopy cover over time), and leaf, crown, and root tissues were harvested for lipid peroxidation and total nonstructural carbohydrates (TNC) including storage carbohydrates and water-soluble carbohydrates (WSC). Low SWC during cold acclimation enhanced recovery from cold temperatures and ice encasement. Root carbohydrates were influenced by SWC regimes during cold acclimation since day 0 plant roots exposed to the 8% SWC treatment had 143.9% higher TNC and 137.6% higher WSC compared with day 0 plants exposed to 12% and 20% SWC. Root levels of carbohydrates and lipid peroxidation were least influenced by cold and ice encasement among the organs evaluated. Prolonged freezing conditions and ice encasement reduced leaf and crown tissue carbohydrates and increased lipid peroxidation compared with day 0 plants not exposed to freezing temperatures and ice encasement. After 40 days of ice encasement, plants exposed to the 8% SWC treatment recovered faster than plants cold acclimated at higher soil moisture levels. Average percent canopy cover after 36 days of recovery in the greenhouse was 71.9% higher for 8% SWC treated plants than in 12% and 20% SWC treated plants. Turfgrass managers may benefit from annual bluegrass putting green management strategies to reduce fall soil moisture. Given that soil moisture did not significantly influence carbohydrate or lipid peroxidation results, except for in roots, additional research is needed to understand the mechanism associated with these findings.

查看原文本刊更多论文

不同土壤湿度和冰封条件下一年生蓝草冷驯化后的叶、根和冠组织生理

一年生蓝草(Poa annua)是一种草坪草物种，容易受到冬杀引起的损害，如冰封压力。本研究旨在确定不同水平的土壤体积含水量(SWC)是否影响冷适应和从冰封中恢复。一年生蓝草在生长室内进行冷驯化，分别处理8%、12%和20% SWC。在冷驯化后，植物在-3°C的温度下进行冰封，直到形成2.5 cm的冰层。在处理0(无冰封暴露)、40和80天时，分析植物的恢复情况(随时间变化的绿树冠覆盖率)，并收集叶片、冠和根组织的脂质过氧化和总非结构性碳水化合物(TNC)，包括储存碳水化合物和水溶性碳水化合物(WSC)。低温驯化期间的低SWC增强了从低温和冰封中恢复的能力。在冷驯化过程中，根系碳水化合物受到SWC制度的影响，因为与第0天暴露于12%和20% SWC的植株相比，暴露于8% SWC处理的植株根系的TNC高143.9%，WSC高137.6%。在被评估的器官中，碳水化合物和脂质过氧化水平受寒冷和冰包裹的影响最小。与第0天未暴露于冷冻温度和冰包裹的植株相比，延长冷冻条件和冰包裹减少了叶片和冠组织的碳水化合物，增加了脂质过氧化。冰封40天后，暴露于8% SWC处理下的植物比在较高土壤水分水平下冷驯化的植物恢复得更快。8% SWC处理的植株在温室内恢复36天后的平均冠层盖度比12%和20% SWC处理的植株高71.9%。草坪管理者可以从每年种植蓝草的绿色管理策略中获益，以减少秋季土壤水分。鉴于土壤湿度对碳水化合物或脂质过氧化结果没有显著影响，除了在根中，需要进一步的研究来了解与这些发现相关的机制。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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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