LDR   03046nas^^22003493a^4500
001        FI14082516_00001
005        20150414162534.0
006        m^^^^^o^^d^^^^^^^^
007        cr^^n^---ma^mp
008        141008n^^^^^^^^xx^^u^^^o^^^^^|^^^^0eng^d
024 8    |a FI14082516
245 00 |a Negative relationships between the nutrient and carbohydrate content of the seagrass Thalassia testudinum |h [electronic resource].
260        |a [S.l.] : |b Florida Coastal Everglades Long Term Ecological Research, |c 2012.
490        |a Aquatic Botany.
506        |a Please contact the owning institution for licensing and permissions. It is the users responsibility to ensure use does not violate any third party rights.
510        |a Campbell, J.E., L.A. Yarbro, J.W. Fourqurean. 2012. Negative relationships between the nutrient and carbohydrate content of the seagrass Thalassia testudinum. Aquatic Botany 99: 56-60.
520 3    |a This study documents relationships between plant nutrient content and rhizome carbohydrate content of a widely distributed seagrass species, Thalassia testudinum, in Florida. Five distinct seagrass beds were sampled for leaf nitrogen, leaf phosphorus, and rhizome carbohydrate content from 1997-1999. All variables displayed marked intra- and inter- regional variation. Elemental ratios (mean N:P ± S.E.) were lowest for Charlotte Harbor (9.9 ± 0.2) and highest for Florida Bay (53.5 ± 0.9), indicating regional shifts in the nutrient content of plant material. Rhizome carbohydrate content (mean ± S.E.) was lowest for Anclote Keys (21.8 ± 1.6 mg g-1FM), and highest for Homosassa Bay (40.7 ± 1.7 mg g-1FM). Within each region, significant negative correlations between plant nutrient and rhizome carbohydrate content were detected; thus, nutrient-replete plants displayed low carbohydrate content, while nutrient-deplete plants displayed high carbohydrate content. Spearman's rank correlations between nutrient and carbohydrate content varied from a minimum in Tampa Bay (ρ =-0.2) to a maximum in Charlotte Harbor (ρ =-0.73). Linear regressions on log-transformed data revealed similar trends. This consistent trend across five distinct regions suggests that nutrient supply may play an important role in the regulation of carbon storage within seagrasses. Here we present a new hypothesis for studies which aim to explain the carbohydrate dynamics of benthic plants.
533        |a Electronic reproduction. |c Florida International University, |d 2014. |f (dpSobek) |n Mode of access: World Wide Web. |n System requirements: Internet connectivity; Web browser software.
650        |a Seagrasses |z Florida.
650        |a Plant nutrients |z Florida.
650        |a Coastal ecology |z Florida.
655    4 |a article.
655    7 |a serial |2 sobekcm
700 1    |a Campbell, Justin E..
700 1    |a Yarbro, Laura A..
700 1    |a Fourqurean, James W..
830    0 |a dpSobek.
830    0 |a Everglades Digital Library: Reclaiming the Everglades.
852        |a dpSobek |c Everglades Digital Library: Reclaiming the Everglades
856 40 |u http://dpanther.fiu.edu/dpService/dpPurlService/purl/FI14082516/00001 |y Click here for full text
992 04 |a http://dpanther.fiu.edu/sobek/content/FI/14/08/25/16/00001/FI14082516thm.jpg
997        |a Everglades Digital Library: Reclaiming the Everglades


The record above was auto-generated from the METS file.