Tissue C, N, P content of the three dominant seagrasses in Brgy. Luyahan, Talin Bay, Batangas.

Tissue C, N, P concentrations of Enhalus acoroides (Linneaus f.) Royle, Halodule uninervis (Forsskal) Ascherson and Thalassia hemprichii (Ehrenberg) Ascherson collected from Talin Bay, Matuod, Batangas were found to vary between tissue parts (leaves vs. roots/rhizomes). Carbon concentration was gen...

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Main Authors: Guanzon, Michelle A., Ong Kian Koc, Bryan Bernard U., Bataclan, Rommel P.
Format: text
Language:English
Published: Animo Repository 1999
Online Access:https://animorepository.dlsu.edu.ph/etd_bachelors/10924
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Institution: De La Salle University
Language: English
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spelling oai:animorepository.dlsu.edu.ph:etd_bachelors-115692021-11-10T03:41:25Z Tissue C, N, P content of the three dominant seagrasses in Brgy. Luyahan, Talin Bay, Batangas. Guanzon, Michelle A. Ong Kian Koc, Bryan Bernard U., Bataclan, Rommel P., Tissue C, N, P concentrations of Enhalus acoroides (Linneaus f.) Royle, Halodule uninervis (Forsskal) Ascherson and Thalassia hemprichii (Ehrenberg) Ascherson collected from Talin Bay, Matuod, Batangas were found to vary between tissue parts (leaves vs. roots/rhizomes). Carbon concentration was generally found to be higher in the roots of Enhalus acoroides during the two sampling months while the two other species were found to exhibit different pattern in carbon concentration between tissue parts and sampling months. Nitrogen content was higher in the roots (except Halodule uninervis) in March and conversely on all the seagrass leaves during the month of July. Phosphorus concentration of the leaves (4.3 mM - 9.5 mM) and the roots (3.2 mM - 8.0 mM) of all selected seagrasses were observed to measure proximate values within a range. Using the N: P ratio for macrophytes (30: 1), the seagrasses N: P values were observed to be nitrogen limited (<30:1, ranges from 10.4215 to 29.0465) except for the roots of Thalassia hemprichii during the March sampling (56.8505) which was observed to be phosphorus limited. N: P ratio is a better index to infer nutrient limitation since nitrogen and phosphorus share common chemical properties like valence status, and their mechanism of uptake across cell membrane are probably similar. Thus, these elemental concentration ratios may be related to the maintenance of biochemical equilibrium with in cells that maximize protein synthesis and tissue production in natural environment. 1999-01-01T08:00:00Z text https://animorepository.dlsu.edu.ph/etd_bachelors/10924 Bachelor's Theses English Animo Repository
institution De La Salle University
building De La Salle University Library
continent Asia
country Philippines
Philippines
content_provider De La Salle University Library
collection DLSU Institutional Repository
language English
description Tissue C, N, P concentrations of Enhalus acoroides (Linneaus f.) Royle, Halodule uninervis (Forsskal) Ascherson and Thalassia hemprichii (Ehrenberg) Ascherson collected from Talin Bay, Matuod, Batangas were found to vary between tissue parts (leaves vs. roots/rhizomes). Carbon concentration was generally found to be higher in the roots of Enhalus acoroides during the two sampling months while the two other species were found to exhibit different pattern in carbon concentration between tissue parts and sampling months. Nitrogen content was higher in the roots (except Halodule uninervis) in March and conversely on all the seagrass leaves during the month of July. Phosphorus concentration of the leaves (4.3 mM - 9.5 mM) and the roots (3.2 mM - 8.0 mM) of all selected seagrasses were observed to measure proximate values within a range. Using the N: P ratio for macrophytes (30: 1), the seagrasses N: P values were observed to be nitrogen limited (<30:1, ranges from 10.4215 to 29.0465) except for the roots of Thalassia hemprichii during the March sampling (56.8505) which was observed to be phosphorus limited. N: P ratio is a better index to infer nutrient limitation since nitrogen and phosphorus share common chemical properties like valence status, and their mechanism of uptake across cell membrane are probably similar. Thus, these elemental concentration ratios may be related to the maintenance of biochemical equilibrium with in cells that maximize protein synthesis and tissue production in natural environment.
format text
author Guanzon, Michelle A.
Ong Kian Koc, Bryan Bernard U.,
Bataclan, Rommel P.,
spellingShingle Guanzon, Michelle A.
Ong Kian Koc, Bryan Bernard U.,
Bataclan, Rommel P.,
Tissue C, N, P content of the three dominant seagrasses in Brgy. Luyahan, Talin Bay, Batangas.
author_facet Guanzon, Michelle A.
Ong Kian Koc, Bryan Bernard U.,
Bataclan, Rommel P.,
author_sort Guanzon, Michelle A.
title Tissue C, N, P content of the three dominant seagrasses in Brgy. Luyahan, Talin Bay, Batangas.
title_short Tissue C, N, P content of the three dominant seagrasses in Brgy. Luyahan, Talin Bay, Batangas.
title_full Tissue C, N, P content of the three dominant seagrasses in Brgy. Luyahan, Talin Bay, Batangas.
title_fullStr Tissue C, N, P content of the three dominant seagrasses in Brgy. Luyahan, Talin Bay, Batangas.
title_full_unstemmed Tissue C, N, P content of the three dominant seagrasses in Brgy. Luyahan, Talin Bay, Batangas.
title_sort tissue c, n, p content of the three dominant seagrasses in brgy. luyahan, talin bay, batangas.
publisher Animo Repository
publishDate 1999
url https://animorepository.dlsu.edu.ph/etd_bachelors/10924
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