Dr Muhammad Adnan Abid

Predictability of the early summer surface air temperature over Western South Asia

Climate Dynamics Springer Nature 62:9 (2024) 9361-9375

Authors:

Irfan Ur Rashid, Muhammad Adnan Abid, Marisol Osman, Fred Kucharski, Moetasim Ashfaq, Antje Weisheimer, Mansour Almazroui, José Abraham Torres-Alavez, Muhammad Afzaal

Abstract:

Variability of the Surface Air Temperature (SAT) over the Western South Asia (WSA) region leads to frequent heatwaves during the early summer (May-June) season. The present study uses the European Centre for Medium-Range Weather Forecast’s fifth-generation seasonal prediction system, SEAS5, from 1981 to 2022 based on April initial conditions (1-month lead) to assess the SAT predictability during early summer season. The goal is to evaluate the SEAS5’s ability to predict the El Niño-Southern Oscillation (ENSO) related interannual variability and predictability of the SAT over WSA, which is mediated through upper-level (200-hPa) geopotential height anomalies. This teleconnection leads to anomalously warm surface conditions over the region during the negative ENSO phase, as observed in the reanalysis and SEAS5. We evaluate SEAS5 prediction skill against two observations and three reanalyses datasets. The SEAS5 SAT prediction skill is higher with high spatial resolution observations and reanalysis datasets compared to the ones with low-resolution. Overall, SEAS5 shows reasonable skill in predicting SAT and its variability over the WSA region. Moreover, the predictability of SAT during La Niña is comparable to El Niño years over the WSA region.

SPEEDY-NEMO: performance and applications of a fully-coupled intermediate-complexity climate model

Copernicus Publications (2024)

Authors:

Paolo Ruggieri, Muhammad Adnan Abid, Javier Garcia-Serrano, Carlo Grancini, Fred Kucharski, Salvatore Pascale, Danila Volpi

SPEEDY-NEMO: performance and applications of a fully-coupled intermediate-complexity climate model

Climate Dynamics (2024)

Authors:

Paolo Ruggieri, Muhammad Adnan Abid, Javier García-Serrano, Carlo Grancini, Fred Kucharski, Salvatore Pascale & Danila Volpi

Abstract:

A fully-coupled general circulation model of intermediate complexity is documented. The study presents an overview of the model climatology and variability, with particular attention to the phenomenology of processes that are relevant for the predictability of the climate system on seasonal-to-decadal time-scales. It is shown that the model can realistically simulate the general circulation of the atmosphere and the ocean, as well as the major modes of climate variability on the examined time-scales: e.g. El Niño-Southern Oscillation, North Atlantic Oscillation, Tropical Atlantic Variability, Pacific Decadal Variability, Atlantic Multi-decadal Variability. Potential applications of the model are discussed, with emphasis on the possibility of generating sets of low-cost large-ensemble retrospective forecasts. We argue that the presented model is suitable to be employed in traditional and innovative model experiments that can play a significant role in future developments of seasonal-to-decadal climate prediction.

Decadal oscillation provides skillful multiyear predictions of Antarctic sea ice

Nature Communications Springer Nature 14:1 (2023) 8286

Authors:

Yusen Liu, Cheng Sun, Jianping Li, Fred Kucharski, Emanuele Di Lorenzo, Muhammad Adnan Abid, Xichen Li

Moisture sources for precipitation variability over the Arabian Peninsula

Climate Dynamics Springer Nature 61:9-10 (2023) 4793-4807

Authors:

Matthew F Horan, Fulden Batibeniz, Fred Kucharski, Mansour Almazroui, Muhammad Adnan Abid, Joshua S Fu, Moetasim Ashfaq