Your search keyword '"Palmer, Carol"' showing total 3 results

1. Seed size, number and strategies in annual plants: a comparative functional analysis and synthesis.

Author

Hodgson, John G, Marti, Gabriel Montserrat, Šerá, Bozena, Jones, Glynis, Bogaard, Amy, Charles, Mike, Font, Xavier, Ater, Mohammed, Taleb, Abdelkader, Santini, Bianca A, Hmimsa, Younes, Palmer, Carol, Wilson, Peter J, Band, Stuart R, Styring, Amy, Diffey, Charlotte, Green, Laura, Nitsch, Erika, Stroud, Elizabeth, and Warham, Gemma

Subjects

SEED size, ANNUALS (Plants), FUNCTIONAL analysis, SEED yield, PLANT size, PRECISION farming

Abstract

Background and Aims Plants depend fundamentally on establishment from seed. However, protocols in trait-based ecology currently estimate seed size but not seed number. This can be rectified. For annuals, seed number should simply be a positive function of vegetative biomass and a negative function of seed size. Methods Using published values of comparative seed number as the 'gold standard' and a large functional database, comparative seed yield and number per plant and per m2 were predicted by multiple regression. Subsequently, ecological variation in each was explored for English and Spanish habitats, newly calculated C-S-R strategies and changed abundance in the British flora. Key Results As predicted, comparative seed mass yield per plant was consistently a positive function of plant size and competitive ability, and largely independent of seed size. Regressions estimating comparative seed number included, additionally, seed size as a negative function. Relationships differed numerically between regions, habitats and C-S-R strategies. Moreover, some species differed in life history over their geographical range. Comparative seed yield per m2 was positively correlated with FAO crop yield, and increasing British annuals produced numerous seeds. Nevertheless, predicted values must be viewed as comparative rather than absolute: they varied according to the 'gold standard' predictor used. Moreover, regressions estimating comparative seed yield per m2 achieved low precision. Conclusions For the first time, estimates of comparative seed yield and number for >800 annuals and their predictor equations have been produced and the ecological importance of these regenerative traits has been illustrated. 'Regenerative trait-based ecology' remains in its infancy, with work needed on determinate vs. indeterminate flowering ('bet-hedging'), C-S-R methodologies, phylogeny, comparative seed yield per m2 and changing life history. Nevertheless, this has been a positive start and readers are invited to use estimates for >800 annuals, in the Supplementary data, to help advance 'regenerative trait-based ecology' to the next level. [ABSTRACT FROM AUTHOR]

Published

2020

2. Trade-offs between seed and leaf size (seed-phytomer-leaf theory): functional glue linking regenerative with life history strategies ... and taxonomy with ecology?

Author

Hodgson, John G., Santini, Bianca A., Marti, Gabriel Montserrat, Pla, Ferran Royo, Jones, Glynis, Bogaard, Amy, Charles, Mike, Font, Xavier, Ater, Mohammed, Taleb, Abdelkader, Poschlod, Peter, Hmimsa, Younes, Palmer, Carol, Wilson, Peter J., Band, Stuart R., Styring, Amy, Diffey, Charlotte, Green, Laura, Nitsch, Erika, and Stroud, Elizabeth

Subjects

SEED size, LEAVES, PLANT ecology, PLANT classification, PLANT nutrients, PLANT species

Abstract

Background and Aims While the 'worldwide leaf economics spectrum' (Wright IJ, Reich PB, Westoby M, et al. 2004. The worldwide leaf economics spectrum. Nature 428: 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 þ 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 = 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. [ABSTRACT FROM AUTHOR]

Published

2017

3. Nuclear and Mitochondrial Patterns of Population Structure in North Pacific False Killer Whales (Pseudorca crassidens).

Author

Martien, Karen K., Chivers, Susan J., Baird, Robin W., Archer, Frederick I., Gorgone, Antoinette M., Hancock-Hanser, Brittany L., Mattila, David, McSweeney, Daniel J., Oleson, Erin M., Palmer, Carol, Pease, Victoria L., Robertson, Kelly M., Schorr, Gregory S., Schultz, Mark B., Webster, Daniel L., and Taylor, Barbara L.

Subjects

KILLER whale, CETACEAN populations, POPULATION genetics, MITOCHONDRIAL pathology, GENE flow

Abstract

False killer whales (Pseudorca crassidens) are large delphinids typically found in deep water far offshore. However, in the Hawaiian Archipelago, there are 2 resident island-associated populations of false killer whales, one in the waters around the main Hawaiian Islands (MHI) and one in the waters around the Northwestern Hawaiian Islands (NWHI). We use mitochondrial DNA (mtDNA) control region sequences and genotypes from 16 nuclear DNA (nucDNA) microsatellite loci from 206 individuals to examine levels of differentiation among the 2 island-associated populations and offshore animals from the central and eastern North Pacific. Both mtDNA and nucDNA exhibit highly significant differentiation between populations, confirming limited gene flow in both sexes. The mtDNA haplotypes exhibit a strong pattern of phylogeographic concordance, with island-associated populations sharing 3 closely related haplotypes not found elsewhere in the Pacific. However, nucDNA data suggest that NWHI animals are at least as differentiated from MHI animals as they are from offshore animals. The patterns of differentiation revealed by the 2 marker types suggest that the island-associated false killer whale populations likely share a common colonization history, but have limited contemporary gene flow. [ABSTRACT FROM PUBLISHER]

Published

2014