Herbaceous angiosperms are not more vulnerable to drought-induced embolism than angiosperm trees

Lens, Frédéric; Picon‐Cochard, Catherine; Delmas, Chloé; Signarbieux, Constant; Buttler, Alexandre; Cochard, Hervé; Jansen, Steven; Chauvin, Thibaud; Dória, Larissa Chacon; Arco, Marcelino del; Delzon, Sylvain

doi:10.1104/pp.16.00829

Cited by 81 publications

(123 citation statements)

References 44 publications

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“…Our finding of a positive association between SSG and riparian zone aridity for communities containing a mixture of woody and herbaceous plants, as well as in separate analyses for herbaceous species (McCoy-Sulentic et al 2017, written communication), strongly suggest a role of high SSG in adaptation of herbaceous plants to water stress (e.g. Lens et al 2016) in addition to woody plants that have been featured in most previous investigations.…”

Section: Stem Specific Gravitymentioning

confidence: 55%

“…Plants with dense wood may be more resistant to xylem cavitation, thus are well adapted to drought compared to species with porous, low density wood (Pockman and Sperry 2000;Hacke et al 2001;Chave et al 2009). Our study extends the use of SSG beyond woody plants to herbaceous plants, in which cavitation resistance also has been associated with stem tissue density (Wahl and Ryer 2000;Lens et al 2016). Also, we investigated plot coverage by species with the C4 photosynthetic pathway, which are mostly grasses in our study, because the C4 pathway confers greater photosynthetic rate and water use efficiency in semiarid areas with high irradiance and mean temperature (Doliner and Jolliffe 1979;Teeri and Stowe 1976;Kemp 1983).…”

Section: Trait Datamentioning

confidence: 99%

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Changes in Community-Level Riparian Plant Traits over Inundation Gradients, Colorado River, Grand Canyon

et al. 2017

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Comparisons of community-level functional traits across environmental gradients have potential for identifying links among plant characteristics, adaptations to stress and disturbance, and community assembly. We investigated community-level variation in specific leaf area (SLA), plant mature height, seed mass, stem specific gravity (SSG), relative cover of C4 species, and total plant cover over hydrologic zones and gradients in years 2013 and 2014 in the riparian plant community along the Colorado River in the Grand Canyon. Vegetation cover was lowest in the frequently inundated active channel zone, indicating constraints on plant establishment and production by flood disturbance and anaerobic stress. Changes in trait values over hydrologic zones and inundation gradients indicate that frequently inundated plots exhibit a community-level ruderal strategy with adaptation to submergence (high SLA and low SSG, height, seed mass, C4 relative cover), whereas less frequently inundated plots exhibit adaptation to drought and infrequent flood disturbance (low SLA and high SSG, height, seed mass, C4 relative cover). Variation in traits not associated with inundation suggests niche differentiation and multiple modes of community assembly. The results enhance understanding of future responses of riparian communities of the Grand Canyon to anticipated drying and changes in hydrologic regime.

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Section: Stem Specific Gravitymentioning

confidence: 55%

Section: Trait Datamentioning

confidence: 99%

Changes in Community-Level Riparian Plant Traits over Inundation Gradients, Colorado River, Grand Canyon

et al. 2017

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“…Similar ontogenic changes in the resistance to xylem embolism have been observed in grapevine stems across the growing season (Charrier et al, ) as well as between juvenile and adult individuals of red oak (Cavender‐Bares & Bazzaz, ), laurel (Lamarque et al, ), and Tasmanian bluegum (Lucani, Brodribb, Jordan, & Mitchell, ). Although there is no clear explanation for these patterns, possible causes include increased lignification and changes in wood anatomical features through time (Lens et al, ; Li et al, ; Wheeler, Sperry, Hacke, & Hoang, ). Second, the wild type exhibited both higher stem hydraulic conductivity and greater resistance to xylem embolism, which suggests that there is no xylem safety‐efficiency trade‐off in the tomato lines we tested.…”

Section: Discussionmentioning

confidence: 99%

“…Studies in plant hydraulics have mainly focused on woody species, but newly developed imaging tools such as X‐ray microtomography (Cochard, Delzon, & Badel, ) and the optical vulnerability technique (Brodribb et al, ) allow for a better understanding of the thresholds of vulnerability to water deficit in herbaceous species. Some herbaceous grasses have been found to be more resistant to embolism than previously thought: the xylem pressure inducing a 50% loss of hydraulic conductivity (Ψ 50 ) ranged from −0.5 MPa in reed canary grass ( Phallaris arundinacea ) to −7.5 MPa in European feather grass ( Stipa pennata ; Lens et al, ). The few estimates of crop Ψ 50 available so far range from −1.6 MPa in rice (Stiller, Lafitte, & Sperry, ) to −3 MPa in sunflower (Ahmad et al, ), but embolism resistance can vary significantly between different varieties within a crop species (Ahmad et al, ).…”

Section: Introductionmentioning

confidence: 99%

Over‐accumulation of abscisic acid in transgenic tomato plants increases the risk of hydraulic failure

Lamarque

Delzon

Toups

et al. 2020

Plant Cell & Environment

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Climate change threatens food security, and plant science researchers have investigated methods of sustaining crop yield under drought. One approach has been to overproduce abscisic acid (ABA) to enhance water use efficiency. However, the concomitant effects of ABA overproduction on plant vascular system functioning are critical as it influences vulnerability to xylem hydraulic failure. We investigated these effects by comparing physiological and hydraulic responses to water deficit between a tomato (Solanum lycopersicum) wild type control (WT) and a transgenic line overproducing ABA (sp12). Under well‐watered conditions, the sp12 line displayed similar growth rate and greater water use efficiency by operating at lower maximum stomatal conductance. X‐ray microtomography revealed that sp12 was significantly more vulnerable to xylem embolism, resulting in a reduced hydraulic safety margin. We also observed a significant ontogenic effect on vulnerability to xylem embolism for both WT and sp12. This study demonstrates that the greater water use efficiency in the tomato ABA overproducing line is associated with higher vulnerability of the vascular system to embolism and a higher risk of hydraulic failure. Integrating hydraulic traits into breeding programmes represents a critical step for effectively managing a crop's ability to maintain hydraulic conductivity and productivity under water deficit.

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“…There have been few assessments of vulnerability to embolism in herbaceous plants (Cochard et al , Mencuccini and Comstock , Saha et al , Lens et al ). Lens et al () showed that herbaceous plants are generally more resistant to embolism than previously thought and that they do not routinely experience xylem embolism.…”

Section: Introductionmentioning

confidence: 99%

Intraspecific variation in embolism resistance and stem anatomy across four sunflower (Helianthus annuus L.) accessions

Ahmad

Lens

Capdeville

et al. 2017

Physiologia Plantarum

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Drought-induced xylem embolism is a key process closely related to plant mortality during extreme drought events. However, this process has been poorly investigated in crop species to date, despite the observed decline of crop productivity under extreme drought conditions. Interspecific variation in hydraulic traits has frequently been reported, but less is known about intraspecific variation in crops. We assessed the intraspecific variability of embolism resistance in four sunflower (Helianthus annuus L.) accessions grown in well-watered conditions. Vulnerability to embolism was determined by the in situ flow-centrifuge method (cavitron), and possible trade-offs between xylem safety, xylem efficiency and growth were assessed. The relationship between stem anatomy and hydraulic traits was also investigated. Mean P was -3 MPa, but significant variation was observed between accessions, with values ranging between -2.67 and -3.22 MPa. Embolism resistance was negatively related to growth and positively related to xylem-specific hydraulic conductivity. There is, therefore, a trade-off between hydraulic safety and growth but not between hydraulic safety and efficiency. Finally, we found that a few anatomical traits, such as vessel density and the area of the vessel lumen relative to that of the secondary xylem, were related to embolism resistance, whereas stem tissue lignification was not. Further investigations are now required to investigate the link between the observed variability of embolism resistance and yield, to facilitate the identification of breeding strategies to improve yields in an increasingly arid world.

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Herbaceous angiosperms are not more vulnerable to drought-induced embolism than angiosperm trees

Cited by 81 publications

References 44 publications

Changes in Community-Level Riparian Plant Traits over Inundation Gradients, Colorado River, Grand Canyon

Changes in Community-Level Riparian Plant Traits over Inundation Gradients, Colorado River, Grand Canyon

Over‐accumulation of abscisic acid in transgenic tomato plants increases the risk of hydraulic failure

Intraspecific variation in embolism resistance and stem anatomy across four sunflower (Helianthus annuus L.) accessions

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