STUDY OF THE CARRYING CAPACITY OF EKAS BAY ECOSYSTEM WITH MASS BALANCE TROPHIC : Abstract

STUDY OF THE CARRYING CAPACITY OF EKAS BAY ECOSYSTEM WITH MASS BALANCE TROPHIC : Abstract

</i><b>Abstract: <i></b><p align="justify"> Study of the carrying capacity of Ekas Bay ecosystem was conducted using Ecopath with Ecosystem 5.0 Beta software. The study was aimed to get the snapshot of trophic flow of Ekas Bay ecosystem and to assess the impa...

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Main Author: Indrayanti <br> NIM. 224 02 003, Elis
Format: Theses
Language:Indonesia
Online Access:https://digilib.itb.ac.id/gdl/view/6044
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Institution: Institut Teknologi Bandung
Language: Indonesia
id id-itb.:6044
spelling id-itb.:60442007-03-13T17:41:49ZSTUDY OF THE CARRYING CAPACITY OF EKAS BAY ECOSYSTEM WITH MASS BALANCE TROPHIC : Abstract Indrayanti <br> NIM. 224 02 003, Elis Indonesia Theses INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/6044 </i><b>Abstract: <i></b><p align="justify"> Study of the carrying capacity of Ekas Bay ecosystem was conducted using Ecopath with Ecosystem 5.0 Beta software. The study was aimed to get the snapshot of trophic flow of Ekas Bay ecosystem and to assess the impacts of fishing on the biomass of functional groups i.e. medium demersal, grouper, coral and adult penaid through the use of Ecosim. The simulation was carried out for 10 years with the scenarios of increasing fishing mortality rate (F) : 10 %, 20 %, 50 %, 75 % and 100 %.<p align="justify"> Ecopath’s result indicates that Ekas Bay ecosystem spans over more than four trophics level and dolphin being the top predator. The trophic model consist of 18 functional groups i.e. 7 fish groups, 6 invertebrata groups, 2 primary producers, coral, dolphin and detritus. Result shows that ratio between total production and total respiration (Pp/R) is 2.034; ratio between production and biomass (P/B) is 5,4 and Finn Cycling Index is 3,04. Result also suggests that the Ekas Bay to be on development stage.<p align="justify"> Simulations of different fishing mortality rates (F) show a strong impact on the biomass of medium demersal, grouper, coral and penaid. Increasing fishing mortality by 10 %, 20 %, 50 %, 75 % and 100 % resulted in marked decrease in average of biomass of medium demersal, grouper and coral by 8 % - 99,8 %. On the other hand, the biomass of adult penaid increases significantly (2 – 9 %) due to recruitment. Increasing coral mortality by 50 % of coral causes decreasing in biomass of medium demersal by 53 % and penaid 6 %, but increasing biomass of small demersal by 5,6 %.</p> text
institution Institut Teknologi Bandung
building Institut Teknologi Bandung Library
continent Asia
country Indonesia
Indonesia
content_provider Institut Teknologi Bandung
collection Digital ITB
language Indonesia
description </i><b>Abstract: <i></b><p align="justify"> Study of the carrying capacity of Ekas Bay ecosystem was conducted using Ecopath with Ecosystem 5.0 Beta software. The study was aimed to get the snapshot of trophic flow of Ekas Bay ecosystem and to assess the impacts of fishing on the biomass of functional groups i.e. medium demersal, grouper, coral and adult penaid through the use of Ecosim. The simulation was carried out for 10 years with the scenarios of increasing fishing mortality rate (F) : 10 %, 20 %, 50 %, 75 % and 100 %.<p align="justify"> Ecopath’s result indicates that Ekas Bay ecosystem spans over more than four trophics level and dolphin being the top predator. The trophic model consist of 18 functional groups i.e. 7 fish groups, 6 invertebrata groups, 2 primary producers, coral, dolphin and detritus. Result shows that ratio between total production and total respiration (Pp/R) is 2.034; ratio between production and biomass (P/B) is 5,4 and Finn Cycling Index is 3,04. Result also suggests that the Ekas Bay to be on development stage.<p align="justify"> Simulations of different fishing mortality rates (F) show a strong impact on the biomass of medium demersal, grouper, coral and penaid. Increasing fishing mortality by 10 %, 20 %, 50 %, 75 % and 100 % resulted in marked decrease in average of biomass of medium demersal, grouper and coral by 8 % - 99,8 %. On the other hand, the biomass of adult penaid increases significantly (2 – 9 %) due to recruitment. Increasing coral mortality by 50 % of coral causes decreasing in biomass of medium demersal by 53 % and penaid 6 %, but increasing biomass of small demersal by 5,6 %.</p>
format Theses
author Indrayanti <br> NIM. 224 02 003, Elis
spellingShingle Indrayanti <br> NIM. 224 02 003, Elis
STUDY OF THE CARRYING CAPACITY OF EKAS BAY ECOSYSTEM WITH MASS BALANCE TROPHIC : Abstract
author_facet Indrayanti <br> NIM. 224 02 003, Elis
author_sort Indrayanti <br> NIM. 224 02 003, Elis
title STUDY OF THE CARRYING CAPACITY OF EKAS BAY ECOSYSTEM WITH MASS BALANCE TROPHIC : Abstract
title_short STUDY OF THE CARRYING CAPACITY OF EKAS BAY ECOSYSTEM WITH MASS BALANCE TROPHIC : Abstract
title_full STUDY OF THE CARRYING CAPACITY OF EKAS BAY ECOSYSTEM WITH MASS BALANCE TROPHIC : Abstract
title_fullStr STUDY OF THE CARRYING CAPACITY OF EKAS BAY ECOSYSTEM WITH MASS BALANCE TROPHIC : Abstract
title_full_unstemmed STUDY OF THE CARRYING CAPACITY OF EKAS BAY ECOSYSTEM WITH MASS BALANCE TROPHIC : Abstract
title_sort study of the carrying capacity of ekas bay ecosystem with mass balance trophic : abstract
url https://digilib.itb.ac.id/gdl/view/6044
_version_ 1820663806543527936

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