Hodgson, John G. and Santini, Bianca A. and Montserrat Marti, Gabriel and Royo Pla, Ferran and Jones, Glynis and Bogaard, Amy and Charles, Mike and Font, Xavier and Ater, Mohammed and Taleb, Abdelkader and Poschlod, Peter and Hmimsa, Younes and Palmer, Carol and Wilson, Peter J. and Band, Stuart R. and Styring, Amy and Diffey, Charlotte and Green, Laura and Nitsch, Erika and Stroud, Elizabeth and Romo-Diez, Angel and de Torres Espuny, Lluis and Warham, Gemma (2017) Trade-offs between seed and leaf size (seed-phytomer-leaf theory): functional glue linking regenerative with life history strategies aEuro broken vertical bar and taxonomy with ecology? ANNALS OF BOTANY, 120 (5). pp. 633-652. ISSN 0305-7364, 1095-8290
Full text not available from this repository. (Request a copy)Abstract
Background and Aims While the 'worldwide leaf economics spectrum' (Wright IJ, Reich PB, Westoby M, et al. 2004. The worldwide leaf economics spectrum. Nature428: 821-827) defines mineral nutrient relationships in plants, no unifying functional consensus links size attributes. Here, the focus is upon leaf size, a much-studied plant trait that scales positively with habitat quality and components of plant size. The objective is to show that this wide range of relationships is explicable in terms of a seed-phytomer-leaf (SPL) theoretical model defining leaf size in terms of trade-offs involving the size, growth rate and number of the building blocks (phytomers) of which the young shoot is constructed. Methods Functional data for 2400+ species and English and Spanish vegetation surveys were used to explore interrelationships between leaf area, leaf width, canopy height, seed mass and leaf dry matter content (LDMC). Key Results Leaf area was a consistent function of canopy height, LDMC and seed mass. Additionally, size traits are partially uncoupled. First, broad laminas help confer competitive exclusion while morphologically large leaves can, through dissection, be functionally small. Secondly, leaf size scales positively with plant size but many of the largest-leaved species are of medium height with basally supported leaves. Thirdly, photosynthetic stems may represent a functionally viable alternative to 'small seeds + large leaves' in disturbed, fertile habitats and 'large seeds + small leaves' in infertile ones. Conclusions Although key elements defining the juvenile growth phase remain unmeasured, our results broadly support SPL theory in that phytometer and leaf size are a product of the size of the initial shoot meristem (a parts per thousand... seed mass) and the duration and quality of juvenile growth. These allometrically constrained traits combine to confer ecological specialization on individual species. Equally, they appear conservatively expressed within major taxa. Thus, 'evolutionary canalization' sensu Stebbins (Stebbins GL. 1974. Flowering plants: evolution above the species level. Cambridge, MA: Belknap Press) is perhaps associated with both seed and leaf development, and major taxa appear routinely specialized with respect to ecologically important size-related traits.
| Item Type: | Article |
|---|---|
| Uncontrolled Keywords: | RELATIVE GROWTH-RATE; PLANT TRAITS; ECONOMICS SPECTRUM; SHEFFIELD FLORA; WEIGHT RECORDS; WOODY-PLANTS; LOCAL FLORA; BIG PLANTS; EVOLUTIONARY; MASS; Allometry; canopy height; canopy structure; evolutionary canalization; functional traits; leaf dry matter content; leaf width; photosynthetic stems; phylogeny; phytomer; seed-phytomer-leaf (SPL) theory; trade-offs |
| Subjects: | 500 Science > 580 Botanical sciences |
| Divisions: | Biology, Preclinical Medicine > Institut für Pflanzenwissenschaften > Lehrstuhl für Botanik |
| Depositing User: | Dr. Gernot Deinzer |
| Date Deposited: | 14 Dec 2018 13:19 |
| Last Modified: | 20 Feb 2019 15:25 |
| URI: | https://pred.uni-regensburg.de/id/eprint/1921 |
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