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- Title
Stomatal density and aperture in non-vascular land plants are non-responsive to above-ambient atmospheric CO<sub>2</sub> concentrations.
- Authors
Field, Katie J.; Duckett, Jeffrey G.; Cameron, Duncan D.; Pressel, Silvia
- Abstract
* Background and Aims Following the consensus view for unitary origin and conserved function of stomata across over 400 million years of land plant evolution, stomatal abundance has been widely used to reconstruct palaeoatmospheric environments. However, the responsiveness of stomata in mosses and hornworts, the most basal stomate lineages of extant land plants, has received relatively little attention. This study aimed to redress this imbal ance and provide the first direct evidence of bryophyte stomatal responsiveness to atmospheric CO2. * Methods A selection of hornwort (Anthoceros punctatus, Phaeoceros laevis) and moss (Polytrichumjuniperinum, Mnium hornum, Funaria hygrometrica) sporophytes with contrasting stomatal morphologies were grown under different atmospheric CO2 concentrations ([CO2]) representing both modern (440p.p.m. CO2) and ancient (1500p.p.m. CO2) atmospheres. Upon sporophyte maturation, stomata from each bryophyte species were imaged, measured and quantified. * Key Results Densities and dimensions were unaffected by changes in [CO2], other than a slight increase in stoma tal density in Funaria and abnormalities in Polytrichum stomata under elevated [CO2]. * Conclusions The changes to stomata in Funaria and Polytrichum are attributed to differential growth of the sporophytes rather than stomata-specific responses. The absence of responses to changes in [CO2] in bryophytes is in line with findings previously reported in other early lineages of vascular plants. These findings strengthen the hypothesis of an incremental acquisition of stomatal regulatory processes through land plant evolution and urge considerable caution in using stomatal densities as proxies for paleo-atmospheric CO2 concentrations.
- Subjects
NONVASCULAR plants; STOMATA; EFFECT of atmospheric carbon dioxide on plants; POLYTRICHUM; PLANT evolution; ANTHOCEROS; FUNARIACEAE
- Publication
Annals of Botany, 2015, Vol 115, Issue 6, p915
- ISSN
0305-7364
- Publication type
Article
- DOI
10.1093/aob/mcv021