Macquarie University ResearchOnline

Please use this identifier to cite or link to this item: http://hdl.handle.net/1959.14/178699

Title

Seedlings of temperate rainforest conifer and angiosperm trees differ in leaf area display

Related

Annals of botany, Vol. 110, No. 1, (2012), p.177-188

DOI

10.1093/aob/mcs095

Publisher

Oxford University Press

Date

2012

Author/Creator

Lusk, Christopher H

Author/Creator

Pérez-Millaqueo, Manuel M

Author/Creator

Saldaña, Alfredo

Author/Creator

Burns, Bruce R

Author/Creator

Laughlin, Daniel C

Author/Creator

Falster, Daniel S

Description

Background and AimsThe contemporary relegation of conifers mainly to cold or infertile sites has been ascribed to low competitive ability, as a result of the hydraulic inefficiency of tracheids and their seedlings initial dependence on small foliage areas. Here it is hypothesized that, in temperate rainforests, the larger leaves of angiosperms also reduce self-shading and thus enable display of larger effective foliage areas than the numerous small leaves of conifers. Methods This hypothesis was tested using 3-D modelling of plant architecture and structural equation modelling to compare self-shading and light interception potential of seedlings of six conifers and 12 angiosperm trees from temperate rainforests. The ratio of displayed leaf area to plant mass (LARd) was used to indicate plant light interception potential: LARd is the product of specific leaf area, leaf mass fraction, self-shading and leaf angle. Results Angiosperm seedlings self-shaded less than conifers, mainly because of differences in leaf number (more than leaf size), and on average their LARd was about twice that of conifers. Although specific leaf area was the most pervasive influence on LARd, differences in self-shading also significantly influenced LARd of large seedlings. Conclusions The ability to deploy foliage in relatively few, large leaves is advantageous in minimizing self-shading and enhancing seedling light interception potential per unit of plant biomass. This study adds significantly to evidence that vegetative traits may be at least as important as reproductive innovations in explaining the success of angiosperms in productive environments where vegetation is structured by light competition.

Description

12 page(s)

Subject Keyword

Biomass distribution

Subject Keyword

competition

Subject Keyword

gymnosperms

Subject Keyword

independent contrasts

Subject Keyword

light interception efficiency

Subject Keyword

plant architecture

Subject Keyword

specific leaf area

Subject Keyword

structural equation modelling

Subject Keyword

YPLANT

Resource Type

journal article

Organisation

Macquarie University. Dept. of Biological Sciences

---

Identifier

http://hdl.handle.net/1959.14/178699

Identifier

ISSN:0305-7364

Identifier

mq_res-ext-2-s2.0-84863007158

Language

eng

Reviewed

Save/E-mail Citation

Citation Format

Plain Text Citation HTML Citation EndNote Format

E-mail Address

Subject

"Annals of botany"

 

OR