Seasonal dynamics of cell-to-cell transport in angiosperm wood

Słupianek, Aleksandra; Myśkow, Elżbieta; Kasprowicz-Maluśki, Anna; Dolzblasz, Alicja; Żytkowiak, Roma; Turzańska, Magdalena; Sokołowska, Katarzyna

doi:10.1093/jxb/erad469

Journal of Experimental Botany

2023

DOI: 10.1093/jxb/erad469

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Seasonal dynamics of cell-to-cell transport in angiosperm wood

Aleksandra Słupianek,

Elżbieta Myśkow,

Anna Kasprowicz-Maluśki

et al.

Abstract: This study describes the seasonal changes in cell-to-cell transport in three selected angiosperm tree species, Acer pseudoplatanus (maple), Fraxinus excelsior (ash), and Populus tremula × tremuloides (poplar), with an emphasis on the living wood component, xylem parenchyma cells (XPCs). We performed anatomical studies, dye loading through the vascular system, measurements of non-structural carbohydrate content, immunocytochemistry, inhibitory assays and quantitative real-time PCR to analyse the transport mecha… Show more

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2024

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Cited by 3 publications

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New insights into plasmodesmata: complex ‘protoplasmic connecting threads’

Zanini,

Burch-Smith

2024

Journal of Experimental Botany

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Intercellular communication in plants, as in other multicellular organisms, allows cells in tissues to coordinate their responses for development and in response to environmental stimuli. Much of this communication is facilitated by plasmodesmata (PD), consisting of membranes and cytoplasm, that connect adjacent cells to each other. PD have long been viewed as passive conduits for the movement of a variety of metabolites and molecular cargoes, but this perception has been changing over the last two decades or so. Research from the last few years has revealed the importance of PD as signaling hubs and as crucial players in hormone signaling. The adoption of advanced biochemical approaches, molecular tools and high-resolution imaging modalities have led to several recent breakthroughs in our understanding of the roles of PD, revealing the structural and regulatory complexity of these ‘protoplasmic connecting threads’. We highlight several of these findings that we think well illustrate the current understanding of PD as functioning at the nexus of plant physiology, development, and acclimation to the environment.

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New insights into plasmodesmata: complex ‘protoplasmic connecting threads’

Zanini,

Burch-Smith

2024

Journal of Experimental Botany

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A higher tissue fraction of parenchyma in secondary xylem supports growth recovery of angiosperm trees after drought

Zhang,

Li,

Yang

et al. 2024

Functional Ecology

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Resilience to drought represents an important focus for trees during climate change, with the aim of predicting the resistance and recovery of species worldwide. Previous studies mainly linked tree growth resilience to plant functional traits that are related to resource acquisition and investment. Here, we investigate a potential link between resilience and the amount of parenchyma tissue in wood, a multifunctional tissue that may provide various physiological benefits to drought‐related mechanisms. We compiled a global tree‐ring data set to evaluate the relationship between growth resistance, resilience or recovery from drought and xylem parenchyma tissue fractions of 50 angiosperms, which was complemented with a local study of nine species from Mt. Tiantong in China. We also assessed the influence of climate and phylogeny on these relationships. We found that growth recovery after drought was positively related to the fractions of total parenchyma locally and globally. This association remained statistically significant when accounting for the effects of climate and phylogeny. No other associations between parenchyma fractions and growth resilience metrics were statistically significant. Our results suggest that drought recovery of angiosperm trees is affected by the amount of parenchyma. Incorporating xylem parenchyma fraction with other traits, such as hydraulic traits, could therefore enhance our comprehension of how various angiosperm tree species will respond to future droughts. Further studies should focus on unravelling the physiological roles of xylem parenchyma fraction. Read the free Plain Language Summary for this article on the Journal blog.

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Tree drought physiology: critical research questions and strategies for mitigating climate change effects on forests

Groover,

Holbrook,

Polle

et al. 2024

New Phytologist

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SummaryDroughts of increasing severity and frequency are a primary cause of forest mortality associated with climate change. Yet, fundamental knowledge gaps regarding the complex physiology of trees limit the development of more effective management strategies to mitigate drought effects on forests. Here, we highlight some of the basic research needed to better understand tree drought physiology and how new technologies and interdisciplinary approaches can be used to address them. Our discussion focuses on how trees change wood development to mitigate water stress, hormonal responses to drought, genetic variation underlying adaptive drought phenotypes, how trees ‘remember’ prior stress exposure, and how symbiotic soil microbes affect drought response. Next, we identify opportunities for using research findings to enhance or develop new strategies for managing drought effects on forests, ranging from matching genotypes to environments, to enhancing seedling resilience through nursery treatments, to landscape‐scale monitoring and predictions. We conclude with a discussion of the need for co‐producing research with land managers and extending research to forests in critical ecological regions beyond the temperate zone.

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Seasonal dynamics of cell-to-cell transport in angiosperm wood

Cited by 3 publications

References 96 publications

New insights into plasmodesmata: complex ‘protoplasmic connecting threads’

New insights into plasmodesmata: complex ‘protoplasmic connecting threads’

A higher tissue fraction of parenchyma in secondary xylem supports growth recovery of angiosperm trees after drought

Tree drought physiology: critical research questions and strategies for mitigating climate change effects on forests

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