Measuring tissue water potential in marine macroalgae via an updated Chardakov method.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2023-08-22 eCollection Date: 2023-10-01 DOI:10.1093/aobpla/plad055
V L Gibson, A Richards Donà, C M Smith
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Abstract

Regulation of tissue water potential is a key mechanism in macroalgal osmotic responses to changing external osmotic conditions, which are common in tidally influenced estuarine and intertidal systems. Nevertheless, significant knowledge gaps exist in our understanding of osmotic responses in macroalgae because few methods measure osmotic potential within macroalgal tissues. Leaf psychrometers have furthered understanding of osmotic potentials in terrestrial plant water relations, yet these have not been developed to measure the range of highly negative potential values found in marine macroalgae. To address these gaps, we present an effective, updated version of the Chardakov method to measure tissue water potential in macroalgae. Here, we present a case study examining macroalgal response in tissue water potential by two morphologically and evolutionarily distinct species, Ulva lactuca (Chlorophyta) and Hypnea musciformis (Rhodophyta) to four paired salinity and nutrient treatments at two temperatures. These treatments simulate a gradient from full coastal ocean conditions to brackish submarine groundwater discharge, an ecosystem type found on basaltic shorelines. Both algae demonstrated plasticity in osmotic response to submarine groundwater discharge with significant positive correlations between tissue water potential and proportion of submarine groundwater discharge in the treatment. These results are the first to describe macroalgal response in tissue water potential, a first step to understanding algal physiological ecology in such complex coastal environments. This revised Chardakov method is a valuable tool to better understand species-specific osmotic responses to ecologically relevant conditions, and can augment the study of other tidal systems and ontogenetic stages.

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用更新的Chardakov方法测量海洋大型藻类的组织水势
在受潮汐影响的河口和潮间带系统中,组织水势的调节是大藻对外部渗透条件变化的渗透反应的关键机制。然而,由于很少有方法测量大藻组织内的渗透势,我们对大藻渗透反应的理解存在显著的知识差距。叶片干湿计已经进一步了解了陆地植物水分关系中的渗透电位,但这些还没有发展到测量海洋大型藻类中发现的高度负电位值的范围。为了解决这些差距,我们提出了一种有效的,更新版本的Chardakov方法来测量大型藻类的组织水势。在这里,我们提出了一个案例研究,研究了两种形态和进化上不同的大藻,Ulva lactuca(绿藻)和Hypnea musciformis(红藻)在两种温度下对四种配对的盐度和营养处理的组织水势反应。这些处理模拟了从完全的沿海海洋条件到咸淡海底地下水排放的梯度,这是一种在玄武岩海岸线上发现的生态系统类型。两种藻类对海底地下水排放的渗透响应均表现出可塑性,处理过程中组织水势与海底地下水排放比例呈显著正相关。这些结果首次描述了大藻对组织水势的反应,是了解如此复杂的沿海环境中藻类生理生态的第一步。这种改进的Chardakov方法是一种有价值的工具,可以更好地了解物种对生态相关条件的特异性渗透反应,并可以增强对其他潮汐系统和个体发生阶段的研究。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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