Drought‐induced lacuna formation in the stem causes hydraulic conductance to decline before xylem embolism in <i>Selaginella</i>

Cardoso, A. A.; Visel, Dominik; Kane, Cade N; Batz, Timothy A.; Sánchez, Clara García; Kaack, Lucian; Lamarque, Laurent J.; Wagner, Yael; King, Andrew; Torres‐Ruiz, José M.; Corso, Déborah; Burlett, Régis; Badel, Éric; Cochard, Hervé; Delzon, Sylvain; Jansen, Steven; McAdam, Scott A. M.

doi:10.1111/nph.16649

Cited by 22 publications

(17 citation statements)

References 88 publications

(106 reference statements)

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“…The extent of the lacunae remained unchanged for 12 h of dehydration (42.9% ±19.9 sd ), and increased to 55.6% (±7.1 sd ) after 24 h of dehydration, that is, over half of the stele separated from the surrounding cortex as the stipes dehydrated. Unlike in Selaginella ( Cardoso et al, 2020 ), we did not observe any trabeculae, endodermal cells that connect the cortex with the pericycle and the vasculature. Lacunae quickly disappeared as the pericycle and endodermis swelled to meet the cortex cells during the rehydration ( Figures 3 and 4 ).…”

Section: Resultscontrasting

confidence: 99%

Desiccation and rehydration dynamics in the epiphytic resurrection fern Pleopeltis polypodioides

Prats

Brodersen

2021

Plant Physiology

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The epiphytic resurrection—or desiccation-tolerant (DT)—fern Pleopeltis polypodioides can survive extreme desiccation and recover physiological activity within hours of rehydration. Yet, how epiphytic DT ferns coordinate between deterioration and recovery of their hydraulic and photosynthetic systems remains poorly understood. We examined the functional status of the leaf vascular system, chlorophyll fluorescence, and photosynthetic rate during desiccation and rehydration of P. polypodioides. Xylem tracheids in the stipe embolized within 3-4 hours during dehydration. When the leaf and rhizome received water, tracheids refilled after approximately 24 hours, which occurred along with dramatic structural changes in the stele. Photosynthetic rate and chlorophyll fluorescence recovered to pre-desiccation values within 12 hours of rehydration, regardless of whether fronds were connected to their rhizome. Our data show that the epiphytic DT fern P. polypodioides can utilize foliar water uptake to rehydrate the leaf mesophyll and recover photosynthesis despite a broken hydraulic connection to the rhizome.

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Section: Resultscontrasting

confidence: 99%

Desiccation and rehydration dynamics in the epiphytic resurrection fern Pleopeltis polypodioides

Prats

Brodersen

2021

Plant Physiology

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“…Recent studies have shown that the vascular strand pulls away from the surrounding parenchyma during later stages of dehydration, such that lacunae surround the phloem tissue (Holmlund et al ., 2019; Cardoso et al ., 2020), while the xylem remains functional (Cardoso et al ., 2020). It is conceivable that the phloem functions in a protective role to maintain hydraulic continuity in the xylem, which may otherwise be vulnerable to air‐seeding.…”

Section: Discussionmentioning

confidence: 99%

Primary tissues may affect estimates of cavitation resistance in ferns

2021

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Different methods of measuring cavitation resistance in fern petioles lead to variable results, particularly with respect to the P 50 metric. We hypothesised that the fern dictyostele structure affects air entry into the xylem, and therefore impacts the shape of the vulnerability curve.Our study examined this variation by comparing vulnerability curves constructed on petioles collected from evergreen and deciduous ferns in the field, with curves generated using the standard centrifuge, air-injection and bench-top dehydration methods. Additional experiments complemented the vulnerability curves to better understand how anatomy shapes estimates of cavitation resistance.Centrifugation and radial air injection generated acceptable vulnerability curves for the deciduous species, but overestimated drought resistance in the two evergreen ferns. In these hardy plants, axial air injection and bench-top dehydration produced results that most closely aligned with observations in nature. Additional experiments revealed that the dictyostele anatomy impedes air entry into the xylem during spinning and radial air injection.Each method produced acceptable vulnerability curves, depending on the species being tested. Therefore, we stress the importance of validating the curves with in situ measures of water potential and, if possible, hydraulic data to generate realistic results with any of the methods currently available.

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“…Although increasing levels of foliar ABA has long been associated with stomatal closure and increases in WUE in angiosperm species during drought [1,38,67,70,71], it has recently been discovered that the stomata of ferns and lycophytes do not close in response to both endogenous and exogenous ABA [72][73][74]. Instead, in these early-diverging species, changes in leaf water status regulate stomatal aperture by an ABA-independent, hydropassive mechanism [72,75,76].…”

Section: Linking Aba With Stomatal Aperture and Xylem Embolismmentioning

confidence: 99%

Abscisic Acid Biosynthesis and Signaling in Plants: Key Targets to Improve Water Use Efficiency and Drought Tolerance

et al. 2020

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The observation of a much-improved fitness of wild-type plants over abscisic acid (ABA)-deficient mutants during drought has led researchers from all over to world to perform experiments aiming at a better understanding of how this hormone modulates the physiology of plants under water-limited conditions. More recently, several promising approaches manipulating ABA biosynthesis and signaling have been explored to improve water use efficiency and confer drought tolerance to major crop species. Here, we review recent progress made in the last decade on (i) ABA biosynthesis, (ii) the roles of ABA on plant-water relations and on primary and secondary metabolisms during drought, and (iii) the regulation of ABA levels and perception to improve water use efficiency and drought tolerance in crop species.

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Drought‐induced lacuna formation in the stem causes hydraulic conductance to decline before xylem embolism in Selaginella

Cited by 22 publications

References 88 publications

Desiccation and rehydration dynamics in the epiphytic resurrection fern Pleopeltis polypodioides

Desiccation and rehydration dynamics in the epiphytic resurrection fern Pleopeltis polypodioides

Primary tissues may affect estimates of cavitation resistance in ferns

Abscisic Acid Biosynthesis and Signaling in Plants: Key Targets to Improve Water Use Efficiency and Drought Tolerance

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