2012
DOI: 10.1007/s11099-012-0050-6
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Water relations and gas exchange in Coespeletia moritziana (Sch. Bip) Cuatrec., a giant rosette species of the high tropical Andes

Abstract: Giant rosettes are ones of the most striking features of the vegetation in the high tropical Andes, with Coespeletia moritziana reaching the highest altitudes up to 4,600 m a.s.l. Different from other giant rosettes, this species grows on rock outcrops with poorly developed soils and where water availability may be limited. Two questions are addressed in this study: How does this species respond in terms of water relations to maintain favorable gas-exchange conditions? Considering that adult plants rely on a w… Show more

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Cited by 7 publications
(4 citation statements)
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“…Maximum CO 2 assimilation rates (10-13 mmol m -2 s -1 ) measured for R. atropurpurea in this study are remarkably higher than any other of the giant rosettes investigated in the Venezuelan paramos (Goldstein et al 1989, Rada et al 1998, Rada et al 2012, Rada 2016 or Lobelia rhynchopetalum (Hochst. Ex A.…”
Section: Discussionmentioning
confidence: 47%
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“…Maximum CO 2 assimilation rates (10-13 mmol m -2 s -1 ) measured for R. atropurpurea in this study are remarkably higher than any other of the giant rosettes investigated in the Venezuelan paramos (Goldstein et al 1989, Rada et al 1998, Rada et al 2012, Rada 2016 or Lobelia rhynchopetalum (Hochst. Ex A.…”
Section: Discussionmentioning
confidence: 47%
“…Different reports have highlighted the particularly positive leaf water potentials that Andean giant rosettes maintain, even under drought conditions (Goldstein et al 1984, Rada et al 1998, Rada 2016. Coespeletia moritziana diverges from this pattern with significantly more negative Y L min (-1.8 MPa) and Y L tlp (-2.3) compared to other giant rosettes (Rada et al 2012). These authors also report important osmotic adjustments for C. moritziana, surviving under drought conditions and on poorly developed soils in rocky sites in one of the driest Venezuelan paramos at higher elevations (4300 m).…”
Section: Discussionmentioning
confidence: 96%
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“…Moreover, a high stomatal conductance has not shown to be directly correlated to a higher ET in the páramos (Jarvis & McNaughton, 1986; Martin et al, 1999). The higher stomatal conductance of giant rosettes could be explained by the presence of a reservoir of water in the stem pith, which helps with the regulation of the water potential gradient and allows a higher control on the water loss through stomata; therefore, the species has the ability to continuously move water and transpire (Cárdenas et al, 2018; Mora Osejo, 2001; Rada et al, 2012).…”
Section: Discussionmentioning
confidence: 99%