التباين المكاني للجفاف المناخي في سهل بنغازي باستخدام مؤشر (SPI) والمؤشر القاري–البحري لجونسون خلال الفترة 1981 - 2024م

ثامناً: المراجع:

 Ali, A. A. M., & Hafi, Z. B. (2022). Standardized precipitation index (SPI) in North Libya and connection with North Atlantic Oscillation (NAO).

 Andreu J., David H., Abel S., Javier P., Dionysis A., Wouter W., Henny A.J. van L., Eleni K., Carlo B., Alessandro C., Susana D., Itziar G., Antonio M., Dario M., Francisco R., Irmi S., Lucia S., Julia R., Drought Indicators: Monitoring, Forecasting And Early Warning, Seventh framework programme of the European Community for research and technological development, Technical Report No.33, March 31th 2015.

 Baltas, E. (2007). Spatial distribution of climatic indices in northern Greece. Meteorological Applications, 14, 69–78.

 Barry, R. G., & Chorley, R. J. (2003). Atmosphere, Weather and Climate (8th ed.). Routledge.

 DEWFORA. (2014). Improved Drought Early Warning and Forecasting to Strengthen Preparedness and Adaptation to Droughts in Africa – Final Project Report. Seventh Framework Programme of the European Union (FP7), Contract No. 265454.

 El Kenawy, A. M., Al Buloshi, A., Al‑Awadhi, T., Al‑Nasiri, N., Navarro‑Serrano, F., Alhatrushi, S., Robaa, S. M., Domínguez‑Castro, F., McCabe, M. F., Schuwerack, P. M., López‑Moreno, J. I., & Vicente‑Serrano, S. M. (2020). Evidence for intensification of meteorological droughts in Oman over the past four decades. Atmospheric Research, 246.

 Libyan National Meteorological Center (LNMC). Benina airport meteorological station data for period (1981–2010), [Unpublished data].

 Marzouk, O. A. (2021). Assessment of global warming in Al Buraimi, Sultanate of Oman based on statistical analysis of NASA POWER data over 39 years, and testing the reliability of NASA POWER against meteorological measurements. Heliyon, 7(3).

 McKee, T. B., Doesken, N. J., & Kleist, J. (1993). The relationship of drought frequency and duration to time scales. In Proceedings of the Eighth Conference on Applied Climatology (pp. 179–184). American Meteorological Society.

 Merabti, A., Darouich, H., Paredes, P., Meddi, M., & Pereira, L. S. (2023). Assessing spatial variability and trends of droughts in Eastern Algeria using SPI, RDI, PDSI, and MedPDSI. Journal of Hydrology: Regional Studies, 42, 101226.

 NASA POWER (2025). NASA Prediction of Worldwide Energy Resources (POWER) Data Access Viewer. National Aeronautics and Space Administration.

 Soliman, M.M.M. 2020. Trend Analysis of Temperatures and Precipitation in northern part of Libya, (PhD Unpublished), Department of Geography, University of Karabuk, Karabuk, Turkey.

 Toros, H., Deniz, A., & İncecik, S. (2008). Continentality and oceanality indices in Turkey. In Proceedings of the Twenty-First Annual Conference of PACON: Energy and Climate Change, Innovative Approaches to Solving Today's Problems (pp. –), Hawaii, USA, June 1–5, 2008.

 World Bank. (2021). Libya Climate Risk Country Profile. Climate Knowledge Portal.

 World Meteorological Organization & Global Water Partnership. (2016). Handbook of drought indicators and indices (M. Svoboda & B. A. Fuchs, Eds.; WMO‑No. 1173). Integrated Drought Management Programme. Geneva, Switzerland.

 Zalika, A. G. (2008). Analysis of meteorological drought in Slovenia with two drought indexes. BALWOIS 2008 Conference, Ohrid, Republic of Macedonia.