Assessing the Impact of Gas Flaring and Carbon Dioxide Emissions on Precipitation Patterns in the Niger Delta Region of Nigeria Using Geospatial Analysis
Source: By:Otutu Anslem Onyebuchi, Eteh Desmond Rowland, Iluma Vieme Phoebe
DOI: https://doi.org/10.30564/jasr.v6i4.5954
Abstract:This research utilizes geospatial methodologies to investigate the influence of gas flaring and carbon dioxide emissions on precipitation patterns within the Niger Delta region of Nigeria. The study relies on average mean precipitation data sourced from CHRS at the University of Arizona and carbon dioxide emissions data from NASA’s AIRS in Giovanni, spanning from July 2002 to November 2011. To carry out the analysis, ArcGIS 5.0 and SPSS 25, employing Inverse Distance Weighting (IDW), were employed to assess CO2 emissions and rainfall for both November and July during the period from 2002 to 2011. Over the course of this study, it was observed that CO2 emission exhibited an upward trend, increasing from 327.5226 parts per million (ppm) in July 2002 to 390.0077 ppm in November 2011. Simultaneously, the rainfall demonstrated an increase, rising from 56.66 millimeters to 390.78 millimeters for both July and November from 2002 to 2011. Noteworthy findings emerged from the correlation analysis conducted. Specifically, from July 2000 to 2011, there was a weak positive correlation (0.3858) observed between CO2 emissions and minimum rainfall, while a strong negative correlation (–0.7998) was identified for maximum rainfall values. In November, both minimum and maximum CO2 emissions displayed strong negative correlations with rainfall, with coefficients of –0.8255 and –0.7415, respectively. These findings hold significant implications for comprehending the environmental dynamics within the Niger Delta. Policymakers and stakeholders can leverage this knowledge to formulate targeted strategies aimed at mitigating CO2 emissions and addressing potential climate change-induced alterations in rainfall patterns.
References:[1] Okpobiri, O., Rowand, E.D., Egobueze, F.E., et al., 2023. Monitoring and quantification of carbon dioxide emissions and impact of sea surface temperature on marine ecosystems as climate change indicators in the Niger Delta using geospatial technology. Journal of Atmospheric Science Research. 6(1). DOI: https://doi.org/10.30564/jasr.v6i1.5107 [2] Ismail, O.S., Umukoro, G.E., 2021. Global impact of gas flaring. Energy and Power Engineering. 4(4), 290-302. DOI: https://doi.org/10.4236/epe.2012.44039 [3] Global Gas Flaring Tracker Report [Internet]. Word Bank; 2023. Available from: https://www.worldbank.org/en/topic/extractiveindustries/publication/2023-global-gas-flaring-tracker-report [4] Nduka, J.K., Okafor, V.N., Odiba, I.O., 2016. Impact of oil and gas activities on acidity of rain and surface water of Niger Delta, Nigeria: An environmental and public health review. Journal of Environmental Protection. 7(4), 566. DOI: https://doi.org/10.4236/jep.2016.74051 [5] Anejionu, O.C., Blackburn, G.A., Whyatt, J.D.,2015. Detecting gas flares and estimating flaring volumes at individual flow stations using MODIS data. Remote Sensing of Environment. 158, 81-94. DOI: https://doi.org/10.1016/j.rse.2014.11.018 [6] Anejionu, O., Blackburn, A., Whyatt, D., 2013. Remote Mapping of Gas Flares in the Niger Delta with MODIS Imagery [Internet]. Available from: http://www.earsel.org/symposia/2013-symposium-Matera/pdf_proceedings/EARSeL-Symposium-2013_2_2_anejionu.pdf [7] Maduka, O., Tobin-West, C., 2017. Is living in a gas-flaring host community associated with being hypertensive? Evidence from the Niger Delta region of Nigeria. BMJ Global Health. 2(4), e000413. DOI: https://doi.org/10.1136/bmjgh-2017-000413 [8] Osuji, L.C., Onojake, C.M., 2004. Trace heavy metals associated with crude oil: A case study of Ebocha‐8 Oil‐spill‐polluted site in Niger Delta, Nigeria. Chemistry & Biodiversity. 1(11), 1708-1715. DOI: https://doi.org/10.1002/cbdv.200490129 [9] Sakib, S.M., 2021. The impact of oil and gas development on the landscape and surface in Nigeria. Asian Pacific Journal of Environment and Cancer. 4(1), 9-17. [10]Nwankwoala, H.O., Okujagu, D.C., 2014. A review of wetlands and coastal resources of the Niger Delta: Potentials, Challenges and Prospects. Environment & Ecosystem Science. 5, 37-46. DOI: https://doi.org/10.26480/ees.01.2021.37.46 [11] Schick, L., 2017. Mapping Gas Flares in the Niger Delta [Internet]. Available from: https://medium.com/code-for-africa/mapping-gas-flares-in-the-niger-delta-f8963f327593 [12]Ndigwe, C., 2022. Nigeria Burns $685m Gas as Flare Sites Project Drags on [Internet]. BusinessDay. Available from: https://businessday.ng/energy/oilandgas/article/nigeria-burns-685m-gas-as-flare-sites-project-drags-on/ [13]World Energy Outlook 2006 [Internet]. OECD iLibrary. Available from: https://www.oecd-ilibrary.org/energy/world-energy-outlook-2006_weo-2006-en [14]Cassia, R., Nocioni, M., Correa-Aragunde, N., et al., 2018. Climate change and the impact of greenhouse gasses: CO2 and NO, friends and foes of plant oxidative stress. Frontiers in Plant Science. 9, 273. DOI: https://doi.org/10.3389/fpls.2018.00273 [15]Chiroma, H., Abdul-Kareem, S., Khan, A., et al., 2015. Global warming: Predicting OPEC carbon dioxide emissions from petroleum consumption using neural network and hybrid cuckoo search algorithm. PloS One. 10(8), e0136140. DOI: https://doi.org/10.1371/journal.pone.0136140 [16]Nwaichi, E.O., Uzazobona, M.A., 2011. Estimation of the CO2 level due to gas flaring in the Niger Delta. Research Journal of Environmental Sciences. 5(6), 565. DOI: https://doi.org/10.3923/rjes.2011.565.572 [17]Ite, A.E., Ibok, U.J., 2013. Gas flaring and venting associated with petroleum exploration and production in the Nigeria’s Niger Delta. American Journal of Environmental Protection. 1(4), 70-77. DOI: https://doi.org/10.12691/env-1-4-1 [18]Intergovernmental Panel on Climate Change (IPCC), 2023. Climate change 2021—The physical science basis. Cambridge University Press: Cambridge. DOI: https://doi.org/10.1017/9781009157896 [19]Ideki, O., Weli, V.E., 2019. Analysis of rainfall variability using remote sensing and GIS in North Central Nigeria. Atmospheric and Climate Sciences. 9(2), 191-201. DOI: https://doi.org/10.4236/acs.2019.92013 [20]Burrough, P.A., McDonnell, R.A., Lloyd, C.D., 2015. Principles of geographical information systems. Oxford University Press: Oxford.