A unified stochastic framework with memory for heat index and sea level dynamics
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Jun 12, 2023
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Abstract
Monitoring temperature-dependent events is critical for understanding their dynamics since these events have an impact on both animal and human habitation. It is common to see analysis of heat index and sea level that are described separately although these events have a direct connection to temperature. Often these analyses are less effective and less reliable in describing its dynamics vis-à-vis redundancy, flexibility, accounting of uncertainties and optimization. Since both are temperature-dependent events, a unified stochastic model with memory was derived. These events can be effectively described with a collective memory function (?−?)?−12?−?2? ??+12, modifying the Brownian motion. A good match between the empirical and theoretical MSDs for both heat index and sea level was obtained with memory parameters ???=1.0460 and ???=1.0894 , respectively. With μ > 1, heat index and sea level exhibited long-term memory characteristics which have important implications for large timescale prediction. Similarly, analyses using a unified model are simplified and may provide the interrelatedness of these events.
How to Cite
Despi LRG, Sontousidad JM, Elnar ARB, Casas KPS, Maglasang GT. 2023. A unified stochastic framework with memory for heat index and sea level dynamics. The Palawan Scientist. 15(1):41–47. https://doi.org/10.69721/TPS.J.2023.15.1.05.
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Keywords
collective memory function, forecasting, heat index, non-Markovian, Philippines, sea level
References
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Coupe J, Harrison C, Robock A, DuVivier A, Maroon E, Lovenduski NS, Bachman S, Landrum L and Bardeen C. 2023. Sudden reduction of Antarctic Sea ice despite cooling after nuclear war. Journal of Geophysical Research: Oceans, 128(1): e2022JC018774. https://doi.org/10.1029/2022JC018774
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Hagen M and Azevedo A. 2022. Climate changes consequences from sun-earth connections and anthropogenic relationships. Natural Science, 14(2): 24-41. https://doi.org/10.4236/ns.2022.142004
Hansen J, Sato M, Ruedy R, Lo K, Lea D and Medina-Elizade M. 2006. Global temperature change. Proceedings of the National Academy of Sciences, 103(39): 14288–14293. https://doi.org/10.1073/pnas.0606291103
He X, Montillet JP, Fernandes R, Melbourne TI, Jiang W and Huang Z. 2022. Sea level rise estimation on the Pacific Coast from Southern California to Vancouver Island. Remote Sensing, 14(17): 4339. https://doi.org/10.3390/rs14174339
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Ishii M, Kimoto M, Sakamoto K and Iwasaki SI. 2006. Steric sea level changes estimated from historical ocean subsurface temperature and salinity analyses. Journal of Oceanography, 62(2): 155170. https://doi.org/10.1007/s10872-006-0041-y
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Li S, Zhao Z, Miaomiao X and Wang Y. 2010. Investigating spatial non-stationary and scale-dependent relationships between urban surface temperature and environmental factors using geographically weighted regression. Environmental Modelling and Software, 25(12): 17891800. http://doi.org/10.1016/j.envsoft.2010.06.011
Long SP, Ainsworth EA, Leakey AD, Nösberger J and Ort DR. 2006. Food for thought: lower-than-expected crop yield stimulation with rising CO2 concentrations. Science, 312(5782): 19181921. http://doi.org/10.1126/science.1114722
Ma Y, Zhou J, Yang S, Yu Z, Wang F and Zhou J. 2019. Effects of extreme temperatures on hospital emergency room visits for respiratory diseases in Beijing, China. Environmental Science and Pollution Research, 26(3): 3055–3064. http://doi:10.1007/s11356-018-3855-4
Maher P and Earnshaw P. 2022. The flexible modelling framework for the Met Office Unified Model (Flex-UM, using UM 12.0 release). Geoscientific Model Development, 15(3): 1177–1194. https://doi.org/10.5194/gmd-15-1177-2022
McGregor GR and Vanos JK. 2018. Heat: a primer for public health researchers. Public Health, 161: 138–146. http://10.1016/j.puhe.2017.11.005
Meehl GA, Karl T, Easterling DR, Changnon S, Pielke Jr R, Changnon D, Evans J, Groisman PY, Knutson TR, Kunkel KE and Mearns LO. 2000. An introduction to trends in extreme weather and climate events: observations, socioeconomic impacts, terrestrial ecological impacts, and model projections. Bulletin of the American Meteorological Society, 81(3): 413416.
Munk W. 2003. Ocean freshening, sea level rising. Science, 300(5628): 2041-2043. http://doi.org/10.1126/science.1085534
Orr A, Deb P, Clem KR, Gilbert E, Bromwich DH, Boberg F, Colwell S, Hansen N, Lazzara MA, Mooney PA et al. 2022. Characteristics of surface “melt potential” over Antarctic ice shelves based on regional atmospheric model simulations of summer air temperature extremes from 1979/80 to 2018/19. Journal of Climate, 36(10): 3357-3383. https://doi.org/10.1175/JCLI-D-22-0386.1
Page JC, De Kauwe MG, Abramowitz G, Cleverly J, Hinko-Najera N, Hovenden MJ and Ogle K. 2021. Examining the role of environmental memory in the predictability of carbon and water fluxes across Australian ecosystems. Biogeosciences Discussions. Preprint, 129. https://doi.org/10.5194/bg-2021-254
Paul AK and Paul A. 2022. Adjustment of the Coastal Communities in Response to Climate Variability and Sea Level Rise in the Sundarban, West Bengal, India. In: Siddiqui AR and Sahay A (eds). Climate Change, Disaster and Adaptations: Contextualising Human Responses to Ecological Change. Cham: Springer International Publishing, pp. 201-217. https://doi.org/10.1007/978-3-030-91010-5_16
Park JY, Schloesser F, Timmermann A, Choudhury D, Lee JY and Nellikkattil AB. 2023. Future sea-level projections with a coupled atmosphere-ocean-ice-sheet model. Nature Communications, 14(1): 636. https://doi.org/10.1038/s41467-023-36051-9
Peng CK, Buldyrev SV, Havlin S, Simons M, Stanley HE and Goldberger AL. 1994. Mosaic organization of DNA nucleotides. Physical Review E, 49(2): 16851689. https://doi.org/10.1103/PhysRevE.49.1685
Pielke Sr RA, Marland G, Betts RA, Chase TN, Eastman JL, Niles JO, Niyogi DDS and Running SW. 2002. The influence of land-use change and landscape dynamics on the climate system: relevance to climate-change policy beyond the radiative effect of greenhouse gases. Philosophical Transactions of the Royal Society of London. Series A: Mathematical, Physical and Engineering Sciences, 360(1797): 17051719. http://doi.org/10.1098/rsta.2002.1027
Power DA, Watson RA, Szathmáry E, Mills R, Powers ST, Doncaster CP and Czapp B. 2015. What can ecosystems learn? Expanding evolutionary ecology with learning theory. Biology Direct, 10(1): 124. https://doi.org/10.1186/s13062-015-0094-1
Purich A and England MH. 2023. Projected impacts of Antarctic Meltwater Anomalies Over the 21st Century. Journal of Climate, 36(8): 2703-2719. https://doi.org/10.1175/JCLI-D-22-0457.1
Ramirez-Beltran ND, Gonzalez JE, Castro JM, Angeles M, Harmsen EW and Salazar CM. 2017. Analysis of the heat index in the mesoamerica and caribbean region. Journal of Applied Meteorology and Climatology, 56(11): 29052925. https://doi.org/10.1175/JAMC-D-16-0167.1
Rypdal K. 2015. Attribution in the presence of a long-memory climate response. Earth System Dynamics, 6(2): 719730. https://doi.org/10.5194/esdd-6-1309-2015
Stott PA, Christidis N, Otto FE, Sun Y, Vanderlinden JP, van Oldenborgh GJ, Vautard R, von Storch H, Walton P, Yiou P et al. 2016. Attribution of extreme weather and climate‐related events. Wiley Interdisciplinary Reviews: Climate Change, 7(1): 2341. https://doi.org/10.1002/wcc.380
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