Your search keyword '"Wahyudi, A'an Johan"' showing total 2 results

1. Multi-temporal variability forecast of particulate organic carbon in the Indonesian seas.

Author

Wahyudi, A'an Johan, Febriani, Febty, and Triana, Karlina

Subjects

COLLOIDAL carbon, CARBON cycle, BOX-Jenkins forecasting, AKAIKE information criterion, OCEAN acidification, FORECASTING

Abstract

The current global condition characterized by high levels of CO2 is altering the carbon cycle and elemental biogeochemistry, resulting in subsequent global warming, climate change, ocean acidification, and the indirect response of deoxygenation. The features of Indonesia's coastal ecosystems and continental shelf waters also contribute to spatio-temporal ocean carbon variability. For instance, the level of particulate organic carbon (POC) will change annually, and thus, over a decadal period, ocean dynamics may affect the temporal variability of POC. Motivated by such conditions, future forecasting is needed to envision the productivity of Indonesian seas by predicting vital parameters such as POC. This research aimed to forecast the temporal variability of POC in Indonesian waters. The Seasonal Autoregressive Integrated Moving Average (SARIMA) forecasting model was used by considering the lowest value of the Akaike information criterion (AIC) and the mean absolute percentage error/MAPE (threshold < 10%). Using the highest correlation coefficient (threshold: 0.75), we obtained the best fit for forecasting POC temporal variability. Hindcast POC data (2002–2020/2021) was used to train the forecasting model. The result shows that forecasting of POC temporal variability can be conducted up to 2030. The validity of prediction is ensured for less than 5 years forward after 2020 with correlation coefficients of 0.65 and 0.83 for seasonal and monthly POC, respectively. The hindcast and forecast estimates of POC in the Indonesian seas show a decreasing trend. The present study emphasizes the different forecasting results obtained using the different approaches of annual versus inter-annual variability. A sustained research effort is still required to assess POC forecasting for its potential benefits in marine system monitoring and assessment. [ABSTRACT FROM AUTHOR]

Published

2023

2. Climate Change Mitigation: from Carbon Cycle to Policy.

Author

Wahyudi, A'an Johan and Afdal

Subjects

*CLIMATE change mitigation, *CARBON dioxide mitigation, *CARBON sequestration, *ENVIRONMENTAL protection, *CLIMATE change, *GREENHOUSE gases

Abstract

Climate change can be mitigated simultaneously by two ways, maintaining the greenhouse gases below the carbon budget and conserving marine and terrestrial vegetation for carbon sequestration. Marine vegetation (e.g. mangrove and seagrass meadows) is less than 0.5% of the total marine area and narrower compared to terrestrial vegetation. However, marine vegetation has high net primary production (NPP) and contributes more than 50% of the global carbon burial in its substrate and biomass. Indonesia has 3,301,848 ha of mangrove area, the widest in South-East Asia. The seagrass meadows of Indonesia are 150,693 ha, the second widest seagrass area in the world. These two ecosystems are important for the global carbon cycle due to their high capacity for carbon sequestration. Considering this potential, it is necessary to promote a strategic scientific-based policy of conservation of marine vegetation areas for both local and national stakeholders. The policies consist of: 1) to implement the National/Local Action Plan for Reducing Greenhouse Gas Emissions (RAN/D GRK); 2) to manage the land use changes that contribute 67% of total national emissions; 3) to determine coastal ecosystem protection areas that are considering the province policy in the Plan for Zoning of Coastal Areas and Small Islands (RZWP3K); 4) to rehabilitate terrestrial vegetation, coastal ecosystems, and aquatic conservation areas (President Regulation no 61/2011); and 5) to strictly carry out the national policy for green open space (Government Regulation no 26/2008). [ABSTRACT FROM AUTHOR]

Published

2018