Ecophysiology of the Soft Tree Fern, Dicksonia antarctica Labill

Environmental constraints on gas exchange, stomatal conductance and water relations were investigated in the Soft Tree Fern, Dicksonia antarctica, at sites across its natural distribution and in the glasshouse. Dicksonia antarctica exhibited strong stomatal response down to a vapour pressure deficit...

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Published in:Austral Ecology
Main Authors: Hunt, M A, Davidson, N J, Unwin, G L, Close, D C
Format: Article in Journal/Newspaper
Language:English
Published: Wiley-Blackwell Publishing Asia 2002
Subjects:
FoR 0602 (Ecology)
FoR 0501 (Ecological Applications)
FoR 0502 (Environmental Science and Management)
photosynthesis
stomatal conductance
vapour pressure deficit
water relations
Antarc*
Antarctica
Online Access:https://doi.org/10.1046/j.1442-9993.2002.01190.x
id ftunivscoast:usc:5018
record_format openpolar
spelling ftunivscoast:usc:5018 2023-05-15T13:39:05+02:00 Ecophysiology of the Soft Tree Fern, Dicksonia antarctica Labill Hunt, M A Davidson, N J Unwin, G L Close, D C 2002 https://doi.org/10.1046/j.1442-9993.2002.01190.x eng eng Wiley-Blackwell Publishing Asia usc:5018 URN:ISSN: 1442-9985 FoR 0602 (Ecology) FoR 0501 (Ecological Applications) FoR 0502 (Environmental Science and Management) photosynthesis stomatal conductance vapour pressure deficit water relations Journal Article 2002 ftunivscoast https://doi.org/10.1046/j.1442-9993.2002.01190.x 2018-07-29T23:57:43Z Environmental constraints on gas exchange, stomatal conductance and water relations were investigated in the Soft Tree Fern, Dicksonia antarctica, at sites across its natural distribution and in the glasshouse. Dicksonia antarctica exhibited strong stomatal response down to a vapour pressure deficit (VPD) of 0.25 kPa, an unusual characteristic when compared with other ground fern species. Net photosynthetic rate may be a response of the microenvironment prevalent during frond development, reflecting acclimatory capacity. Both these ecophysiological characteristics are consistent with the ecological niche of D. antarctica, a long-lived, fire-resistant species that, during its lifetime, may be exposed to: (i) a humid environment beneath a rainforest canopy; and (ii) an exposed environment following wildfire. Maximum net photosynthesis and quantum yield of photosynthesis correlated strongly with VPD and the maximum net photosynthetic rate of 10.8 µmol m−2 s−1 was the highest yet recorded for a fern. These observations are consistent with the relatively low growth typically observed in D. antarctica on sunny, exposed sites and vice versa on cool, humid sites exposed to sunflecks. Favourable water relations maintained under conditions of moderate VPD (2.03 kPa) were probably due to stomatal control. However, inadequate rainfall or high VPD (4.98 kPa) caused water stress, recovery of which was limited by slow water transport through fronds. These observations are consistent with the limitation of D. antarctica distribution to sites sheltered from hot winds and with reliable water supply. The funnel-shaped rosette of fronds of D. antarctica may harvest rainfall and make it accessible to aerial roots situated at the base of fronds. This process may maintain favourable water relations independently of a subterranean root system. This proposed strategy of water acquisition is unique for a fern species and may eliminate a need for soil moisture competition with surrounding plant species. It is suggested that the ecophysiological characteristics observed in D. antarctica in this study may contribute to the ecological niche it occupies, which is characterized by a variable environment. Article in Journal/Newspaper Antarc* Antarctica University of the Sunshine Coast, Queensland, Australia: COAST Research Database Austral Ecology 27 4 360 368
institution Open Polar
collection University of the Sunshine Coast, Queensland, Australia: COAST Research Database
op_collection_id ftunivscoast
language English
topic FoR 0602 (Ecology)
FoR 0501 (Ecological Applications)
FoR 0502 (Environmental Science and Management)
photosynthesis
stomatal conductance
vapour pressure deficit
water relations
spellingShingle FoR 0602 (Ecology)
FoR 0501 (Ecological Applications)
FoR 0502 (Environmental Science and Management)
photosynthesis
stomatal conductance
vapour pressure deficit
water relations
Hunt, M A
Davidson, N J
Unwin, G L
Close, D C
Ecophysiology of the Soft Tree Fern, Dicksonia antarctica Labill
topic_facet FoR 0602 (Ecology)
FoR 0501 (Ecological Applications)
FoR 0502 (Environmental Science and Management)
photosynthesis
stomatal conductance
vapour pressure deficit
water relations
description Environmental constraints on gas exchange, stomatal conductance and water relations were investigated in the Soft Tree Fern, Dicksonia antarctica, at sites across its natural distribution and in the glasshouse. Dicksonia antarctica exhibited strong stomatal response down to a vapour pressure deficit (VPD) of 0.25 kPa, an unusual characteristic when compared with other ground fern species. Net photosynthetic rate may be a response of the microenvironment prevalent during frond development, reflecting acclimatory capacity. Both these ecophysiological characteristics are consistent with the ecological niche of D. antarctica, a long-lived, fire-resistant species that, during its lifetime, may be exposed to: (i) a humid environment beneath a rainforest canopy; and (ii) an exposed environment following wildfire. Maximum net photosynthesis and quantum yield of photosynthesis correlated strongly with VPD and the maximum net photosynthetic rate of 10.8 µmol m−2 s−1 was the highest yet recorded for a fern. These observations are consistent with the relatively low growth typically observed in D. antarctica on sunny, exposed sites and vice versa on cool, humid sites exposed to sunflecks. Favourable water relations maintained under conditions of moderate VPD (2.03 kPa) were probably due to stomatal control. However, inadequate rainfall or high VPD (4.98 kPa) caused water stress, recovery of which was limited by slow water transport through fronds. These observations are consistent with the limitation of D. antarctica distribution to sites sheltered from hot winds and with reliable water supply. The funnel-shaped rosette of fronds of D. antarctica may harvest rainfall and make it accessible to aerial roots situated at the base of fronds. This process may maintain favourable water relations independently of a subterranean root system. This proposed strategy of water acquisition is unique for a fern species and may eliminate a need for soil moisture competition with surrounding plant species. It is suggested that the ecophysiological characteristics observed in D. antarctica in this study may contribute to the ecological niche it occupies, which is characterized by a variable environment.
format Article in Journal/Newspaper
author Hunt, M A
Davidson, N J
Unwin, G L
Close, D C
author_facet Hunt, M A
Davidson, N J
Unwin, G L
Close, D C
author_sort Hunt, M A
title Ecophysiology of the Soft Tree Fern, Dicksonia antarctica Labill
title_short Ecophysiology of the Soft Tree Fern, Dicksonia antarctica Labill
title_full Ecophysiology of the Soft Tree Fern, Dicksonia antarctica Labill
title_fullStr Ecophysiology of the Soft Tree Fern, Dicksonia antarctica Labill
title_full_unstemmed Ecophysiology of the Soft Tree Fern, Dicksonia antarctica Labill
title_sort ecophysiology of the soft tree fern, dicksonia antarctica labill
publisher Wiley-Blackwell Publishing Asia
publishDate 2002
url https://doi.org/10.1046/j.1442-9993.2002.01190.x
genre Antarc*
Antarctica
genre_facet Antarc*
Antarctica
op_relation usc:5018
URN:ISSN: 1442-9985
op_doi https://doi.org/10.1046/j.1442-9993.2002.01190.x
container_title Austral Ecology
container_volume 27
container_issue 4
container_start_page 360
op_container_end_page 368
_version_ 1766114350030913536

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