Search results
Nov 9, 2017 · Resisting heat – rapid physiological and biochemical mechanisms of tolerance to high temperature. Plant species considered to be tolerant to high temperatures have acclimation mechanisms (Table 1) that can be activated by transcriptome, proteome and metabolome adjustments in the plant cell when exposed to heat. 66 One of the first acclimation ...
- Figure 1
Schematic representation of the main thermal niches of the...
- Table 1
Tolerance mechanisms in plants native from distinct areas of...
- Open in a Separate Window
Temperature is one of the main environmental factors that...
- Observations of Ice Nucleation and Propagation in Plants Using Infrared Video Thermography
We evaluated the use of infrared (IR) video thermography to...
- Mechanisms of thermoregulation in plants
In this addendum we discuss the central role of AOX in heat...
- How plants cope with temperature stress
Figure 1. Schematic representation of the temperature...
- Figure 1
Feb 17, 2020 · February 17, 2020. Understanding plant thermoregulation in the face of climate change. Plants possess the fascinating ability to control their body temperature. This physiological process is fundamental for the growth, reproduction, and survival of numerous species of plants.
People also ask
How do plants regulate their body temperature?
How does temperature affect plant metabolism?
How do plants respond to temperature?
Figure 1. Comparison of body temperature response by ectotherm (i.e., poikilotherm) and endotherm (i.e., homeotherm) to changing ambient temperatures. Poikilotherms are also known as ectotherms...
Aug 1, 2008 · As a first step to answering this question our group has been investigating the mechanisms by which plants generate heat. Endothermic animals generate heat metabolically by ‘burning’ fats and sugars during respiration. In contrast, respiration rates in most plants are too low to generate sufficient heat to warm their tissues.
Apr 24, 2023 · Under HT conditions, plants exhibit various mechanisms for surviving which include long-term evolutionary phenological and morphological adaptations and short-term avoidance or acclimation mechanisms such as changing leaf orientation, transpirational cooling, or alteration of membrane lipid compositions.