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The Influence of Life Form on Carbon and Nitrogen Relationships in Tropical Rainforest Ferns

Overview
Journal Oecologia
Specialty Environmental Health
Date 2007 Apr 7
PMID 17415590
Citations 14
Authors
James E Watkins Jr
Philip W Rundel
Catherine L Cardelus
Affiliations
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Abstract

Tropical ferns are characterized by a high diversity of plant life forms, yet there have been few large-scale studies on the functional ecology of these different forms. We examined epiphytic, hemiepiphytic, and terrestrial ferns, and asked whether there are differences in the mineral nutrition and water relations across different growth forms of a diverse assemblage of species. We measured specific leaf area, leaf nitrogen concentrations, and natural abundance of the stable isotopes delta(15)N and delta(13)C of 48 fern species from 36 genera across a wide range of habitats at La Selva Biological Station in Costa Rica. We found that epiphytes were significantly different in all measured variables from hemiepiphytic and terrestrial species, and that terrestrial and soil-rooted hemiepiphytes were indistinguishable in all variables excluding SLW. A multivariate analysis revealed that aspects of N nutrition were the most reliable at separating epiphytic species from other life forms. Our study demonstrates that the natural abundance of both C and N as well as N relations and leaf morphology are useful when segregating different plant life forms, and that the N cycle of epiphytic and terrestrial habitats function independently from each other.

Citing Articles

Water-Deficit Stress in the Epiphytic Elkhorn Fern: Insight into Photosynthetic Response.

Oliwa J, Skoczowski A, Rut G, Kornas A Int J Mol Sci. 2023; 24(15).

PMID: 37569438 PMC: 10418323. DOI: 10.3390/ijms241512064.

Functional Diversity in Ferns Is Driven by Species Richness Rather Than by Environmental Constraints.

Aros-Mualin D, Noben S, Karger D, Carvajal-Hernandez C, Salazar L, Hernandez-Rojas A Front Plant Sci. 2021; 11:615723.

PMID: 33505416 PMC: 7829179. DOI: 10.3389/fpls.2020.615723.

Evolution of rapid blue-light response linked to explosive diversification of ferns in angiosperm forests.

Cai S, Huang Y, Chen F, Zhang X, Sessa E, Zhao C New Phytol. 2020; 230(3):1201-1213.

PMID: 33280113 PMC: 8048903. DOI: 10.1111/nph.17135.

Ecological stoichiometry of the epiphyte community in a subtropical forest canopy.

Huang J, Liu W, Li S, Song L, Lu H, Shi X Ecol Evol. 2020; 9(24):14394-14406.

PMID: 31938527 PMC: 6953686. DOI: 10.1002/ece3.5875.

Convergence of ecophysiological traits drives floristic composition of early lineage vascular plants in a tropical forest floor.

Campany C, Martin L, Watkins J Ann Bot. 2018; 123(5):793-803.

PMID: 30566632 PMC: 6534666. DOI: 10.1093/aob/mcy210.

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