The role of nutrient availability and resorption efficiency and their impact on nutrient conservation in mangroves

BACKGROUND AND OBJECTIVES: Nutrient availability influences mangrove forest structure and productivity. The conversion of mangroves into aquaculture ponds can lead to significant disturbances, resulting in long-term consequences associated with the clearing of vegetation and changes in the physico-c...

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Main Authors: M.E.B. Gerona-Daga, R.A. MacKenzie, L.G. Sumabat-Dacones, C.F.P. Naputo, S.G. Salmo III
Format: Article
Language:English
Published: GJESM Publisher 2024-08-01
Series:Global Journal of Environmental Science and Management
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Online Access:https://www.gjesm.net/article_715077_a6a14429dc360f779e60744060251842.pdf
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author M.E.B. Gerona-Daga
R.A. MacKenzie
L.G. Sumabat-Dacones
C.F.P. Naputo
S.G. Salmo III
author_facet M.E.B. Gerona-Daga
R.A. MacKenzie
L.G. Sumabat-Dacones
C.F.P. Naputo
S.G. Salmo III
author_sort M.E.B. Gerona-Daga
collection DOAJ
description BACKGROUND AND OBJECTIVES: Nutrient availability influences mangrove forest structure and productivity. The conversion of mangroves into aquaculture ponds can lead to significant disturbances, resulting in long-term consequences associated with the clearing of vegetation and changes in the physico-chemical properties of the soil. These alterations may subsequently restrict the availability of essential nutrients, including nitrogen and phosphorus. Consequently, nutrient limitations can constrain mangrove growth and development. Conventional indicators of nutrient limitation are founded on the analysis of leaf nutrient and nutrient resorption ratios, drawing from datasets collected in terrestrial and temperate forest environments. However, these indices may not be applicable to mangroves due to the prevalence of a wide range of environmental settings and occurrences of disturbances. In the Philippines, mangrove ecosystems are represented by diverse stand types, including natural or intact mangroves, restored or planted mangroves, and recolonized stands, which are naturally revegetated abandoned ponds. These different stand types are perceived to have different levels of nutrient availability and resorption capabilities. This study aims to investigate the changes in soil and leaf nutrient concentrations of nitrogen and phosphorus, leaf nitrogen to phosphorus ratio, nitrogen and phosphorus resorption efficiencies, and nitrogen resorption efficiency to phosphorus resorption efficiency ratio across a chronosequence of restored and recolonized stands (with intact natural stands as reference sites) in Ormoc Bay, Philippines.METHODS: Soil and leaf samples were obtained from both seedlings and mature trees across each vegetation plot in restored, recolonized, and natural stands, totaling 30 plots. Soil (total nitrogen and available phosphorus) and leaf (total nitrogen and total phosphorus) samples were analyzed for nutrient concentrations. The calculations were performed to determine the leaf nitrogen to phosphorus ratio, nitrogen resorption efficiency, phosphorus resorption efficiency, and the ratio of nitrogen resorption efficiency to phosphorus resorption efficiency based on the nutrient concentrations.FINDINGS: While there was a marked difference in the nutrient composition of soil and leaves across various stand types, the data did not indicate any clear age-related patterns in the restored and recolonized stands. Soil nutrients were not correlated with leaf nutrients suggesting that soil nutrient availability does not necessarily translate to nutrient absorption and accumulation in the leaves. Nitrogen resorption efficiency is similar across stand types. Phosphorus resorption efficiency was highest (76 percent) in recolonized stands suggesting that phosphorus resorption is an adaptive strategy to meet phosphorus demand. Conventional indices of leaf nitrogen to phosphorus and nitrogen resorption efficiency to phosphorus resorption efficiency ratios as indicators of nutrient limitations (as used in other terrestrial systems) may not be applicable in disturbed mangroves because of apparent long-term impacts on soil nutrients following pond construction, operation, and abandonment. Recolonized stands exhibited high phosphorus resorption resulting in low phosphorus concentration of senescent leaves and consequently, low phosphorus input of senescent leaves to soil phosphorus pool. CONCLUSION: This study demonstrated variations in soil nitrogen and phosphorus, leaf nitrogen and phosphorus, leaf nitrogen and phosphorus ratio, and nutrient resorption efficiencies of nitrogen and phosphorus across stand types and ages. Conventional indices for nutrient limitation of nitrogen and phosphorus using leaf nitrogen to phosphorus and nitrogen resorption efficiency to phosphorus resorption efficiency ratios showed inconsistent indicator of nutrient limitations in mangroves.  Hence, a mangrove-specific leaf nitrogen to phosphorus ratio and nitrogen resorption efficiency to phosphorus resorption efficiency ratio are suggested as a more appropriate indicator of nutrient limitation.
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spelling doaj-art-018db76869ea4c38a39f7a061f1bcd282025-02-03T07:22:09ZengGJESM PublisherGlobal Journal of Environmental Science and Management2383-35722383-38662024-08-0110Special Issue: Biosorbents & Environmental Management375210.22034/GJESM.2024.SI.03715077The role of nutrient availability and resorption efficiency and their impact on nutrient conservation in mangrovesM.E.B. Gerona-Daga0R.A. MacKenzie1L.G. Sumabat-Dacones2C.F.P. Naputo3S.G. Salmo III4Institute of Biology, College of Science, University of the Philippines Diliman, Quezon City, PhilippinesUnited States Department of Agriculture, Forest Service, Koror, PalauInstitute of Biology, College of Science, University of the Philippines Diliman, Quezon City, PhilippinesInstitute of Environmental Science and Meteorology, University of the Philippines Diliman, Quezon City, PhilippinesInstitute of Biology, College of Science, University of the Philippines Diliman, Quezon City, PhilippinesBACKGROUND AND OBJECTIVES: Nutrient availability influences mangrove forest structure and productivity. The conversion of mangroves into aquaculture ponds can lead to significant disturbances, resulting in long-term consequences associated with the clearing of vegetation and changes in the physico-chemical properties of the soil. These alterations may subsequently restrict the availability of essential nutrients, including nitrogen and phosphorus. Consequently, nutrient limitations can constrain mangrove growth and development. Conventional indicators of nutrient limitation are founded on the analysis of leaf nutrient and nutrient resorption ratios, drawing from datasets collected in terrestrial and temperate forest environments. However, these indices may not be applicable to mangroves due to the prevalence of a wide range of environmental settings and occurrences of disturbances. In the Philippines, mangrove ecosystems are represented by diverse stand types, including natural or intact mangroves, restored or planted mangroves, and recolonized stands, which are naturally revegetated abandoned ponds. These different stand types are perceived to have different levels of nutrient availability and resorption capabilities. This study aims to investigate the changes in soil and leaf nutrient concentrations of nitrogen and phosphorus, leaf nitrogen to phosphorus ratio, nitrogen and phosphorus resorption efficiencies, and nitrogen resorption efficiency to phosphorus resorption efficiency ratio across a chronosequence of restored and recolonized stands (with intact natural stands as reference sites) in Ormoc Bay, Philippines.METHODS: Soil and leaf samples were obtained from both seedlings and mature trees across each vegetation plot in restored, recolonized, and natural stands, totaling 30 plots. Soil (total nitrogen and available phosphorus) and leaf (total nitrogen and total phosphorus) samples were analyzed for nutrient concentrations. The calculations were performed to determine the leaf nitrogen to phosphorus ratio, nitrogen resorption efficiency, phosphorus resorption efficiency, and the ratio of nitrogen resorption efficiency to phosphorus resorption efficiency based on the nutrient concentrations.FINDINGS: While there was a marked difference in the nutrient composition of soil and leaves across various stand types, the data did not indicate any clear age-related patterns in the restored and recolonized stands. Soil nutrients were not correlated with leaf nutrients suggesting that soil nutrient availability does not necessarily translate to nutrient absorption and accumulation in the leaves. Nitrogen resorption efficiency is similar across stand types. Phosphorus resorption efficiency was highest (76 percent) in recolonized stands suggesting that phosphorus resorption is an adaptive strategy to meet phosphorus demand. Conventional indices of leaf nitrogen to phosphorus and nitrogen resorption efficiency to phosphorus resorption efficiency ratios as indicators of nutrient limitations (as used in other terrestrial systems) may not be applicable in disturbed mangroves because of apparent long-term impacts on soil nutrients following pond construction, operation, and abandonment. Recolonized stands exhibited high phosphorus resorption resulting in low phosphorus concentration of senescent leaves and consequently, low phosphorus input of senescent leaves to soil phosphorus pool. CONCLUSION: This study demonstrated variations in soil nitrogen and phosphorus, leaf nitrogen and phosphorus, leaf nitrogen and phosphorus ratio, and nutrient resorption efficiencies of nitrogen and phosphorus across stand types and ages. Conventional indices for nutrient limitation of nitrogen and phosphorus using leaf nitrogen to phosphorus and nitrogen resorption efficiency to phosphorus resorption efficiency ratios showed inconsistent indicator of nutrient limitations in mangroves.  Hence, a mangrove-specific leaf nitrogen to phosphorus ratio and nitrogen resorption efficiency to phosphorus resorption efficiency ratio are suggested as a more appropriate indicator of nutrient limitation.https://www.gjesm.net/article_715077_a6a14429dc360f779e60744060251842.pdfleaf nitrogen and phosphorusnaturally recolonized pondsphilippine mangrovesresorption efficiencyrestorationsoil nutrients
spellingShingle M.E.B. Gerona-Daga
R.A. MacKenzie
L.G. Sumabat-Dacones
C.F.P. Naputo
S.G. Salmo III
The role of nutrient availability and resorption efficiency and their impact on nutrient conservation in mangroves
Global Journal of Environmental Science and Management
leaf nitrogen and phosphorus
naturally recolonized ponds
philippine mangroves
resorption efficiency
restoration
soil nutrients
title The role of nutrient availability and resorption efficiency and their impact on nutrient conservation in mangroves
title_full The role of nutrient availability and resorption efficiency and their impact on nutrient conservation in mangroves
title_fullStr The role of nutrient availability and resorption efficiency and their impact on nutrient conservation in mangroves
title_full_unstemmed The role of nutrient availability and resorption efficiency and their impact on nutrient conservation in mangroves
title_short The role of nutrient availability and resorption efficiency and their impact on nutrient conservation in mangroves
title_sort role of nutrient availability and resorption efficiency and their impact on nutrient conservation in mangroves
topic leaf nitrogen and phosphorus
naturally recolonized ponds
philippine mangroves
resorption efficiency
restoration
soil nutrients
url https://www.gjesm.net/article_715077_a6a14429dc360f779e60744060251842.pdf
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