Plant developmental stage influences responses of Pinus strobiformis seedlings to experimental warming.

Q3 Agricultural and Biological Sciences
Plant-environment interactions (Hoboken, N.J.) Pub Date : 2021-06-20 eCollection Date: 2021-06-01 DOI:10.1002/pei3.10055
Ehren Reid Von Moler, Thomas Kolb, Anne Brady, Briana Nicole Palmiero, Taylor Robert Wallace, Kristen Marie Waring, Amy Vaughn Whipple
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引用次数: 0

Abstract

Seedling emergence, survival, morphological and physiological traits, and oxidative stress resistance of southwestern white pine (Pinus strobiformis Engelm.) were studied in response to warming treatments applied during embryogenesis, germination, and early seedling growth. Daytime air temperature surrounding cones in tree canopies was warmed by +2.1°C during embryo development. Resulting seeds and seedlings were assigned to three thermal regimes in growth chambers, with each regime separated by 4°C to encompass the wide range of temperatures observed over space and time across the species' range, plus the effect of heat waves coupled with a high carbon emissions scenario of climate warming. The embryo warming treatment reduced percent seedling emergence in all germination and growth environments and reduced mortality of seedlings grown in the warmest environment. Warm thermal regimes during early seedling growth increased subsequent seedling resistance to oxidative stress and transpirational water use. Experimental warming during seed development, germination, and seedling growth affected seedling emergence and survival. Oxidative stress resistance, morphology, and water relations were affected only by warming imposed during germination and seedling growth. This work explores potential outcomes of climate warming on multiple dimensions of seedling performance and uniquely illustrates that plant responses to heat vary with plant developmental stage in addition to the magnitude of temperature change.

Abstract Image

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植物发育阶段影响松树幼苗对实验升温的反应。
研究了西南白皮松(Pinus strobiformis Engelm.)在胚胎发育期间,树冠中球果周围的白天气温升高 +2.1°C。结果种子和幼苗在生长室中被分配到三种热制度中,每种制度之间相差 4°C,以涵盖该物种分布区在空间和时间上观察到的广泛温度范围,以及热浪和高碳排放情景下气候变暖的影响。胚胎加温处理降低了所有发芽和生长环境中的出苗率,并降低了在最温暖环境中生长的幼苗的死亡率。秧苗早期生长期间的暖热机制提高了秧苗随后对氧化应激的抵抗力和呼吸用水量。种子发育、发芽和幼苗生长期间的实验性升温会影响幼苗的出苗和存活。氧化胁迫抗性、形态和水分关系仅受萌芽和幼苗生长期间加温的影响。这项研究探索了气候变暖对幼苗多方面表现的潜在影响,并独特地说明了植物对热的反应除了随温度变化的幅度而变化外,还随植物的发育阶段而变化。
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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CiteScore
2.70
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