Baseline Climatology of Viti Levu (Fiji) and Current Climatic Trends Melchior Mataki AIACC-SIS09 Pacific Centre for Environment and Sustainable Development.

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Presentation transcript:

Baseline Climatology of Viti Levu (Fiji) and Current Climatic Trends Melchior Mataki AIACC-SIS09 Pacific Centre for Environment and Sustainable Development (PACE-SD) The University of the South Pacific, Suva, Fiji Tel: (+679) ; Fax: (+679)

Purpose of Paper To characterize the observed behavior of surface climate at Nadi and Suva To obtain an impression of on-going climate trends and their impact on exposure units

75% of Fiji population (~800,000), ~210,000 are in the greater Suva (capital) area Economic activities: Agriculture-based economy with heavy reliance on a single crop – sugar cane. Other main contributors to GDP are tourism and garment- manufacture - most of these are located in Viti levu Land mass - 10,388km 2 Dry in leeward (Nadi) 200cm annual rainfall (ARF) Wet on windward east side(Suva) 300cm to 600cm (ARF) Viti Levu (Fiji)

Fiji Meteorological Service (FMS) Stations Nadi Suva ~200km apart Surface temperature and rainfall data Max & Min temperature (T) Daily rainfall (RF) Climatological Stations

*Baseline period ( ) T & RF analysis *Monthly and Annual climatological means (normals) *Time series analysis on seasonal and annual basis Data Analysis

Results & Discussion Nadi Suva Annual Climatological Normals

Monthly Climatological Normals

T-Anomalies NadiSuva

Max & Min T

RF Anomalies

ENSO is the key factor for variability in the Pacific climate system at interannual timescales.

El Nino and RF

SPCZ and Heavy Rainfall Events in PICs

Equatorial Indian Ocean temperatures also affect rainfall over the Pacific Warmer or colder sea surface temperatures (SST) affect the Earth's atmospheric circulation pattern such as to modulate the intensity of rainfall over most of Tropics. A phenomenon known as the Madden Julian Oscillation (MJO) has been found to affect the monsoon circulation and the MJO itself is affected by the variation of the SSTs. The MJO can be characterized by a large-scale eastward movement of air in the upper troposphere with a period of about days, over the tropical eastern Indian and western Pacific Oceans at approximately 200 hPa in the upper troposphere.

Observed Sea level Changes

The Island of Viti levu has a low adaptive capacity, high sensitivity to external shocks and high vulnerability to climate change The inter-seasonal/annual variability in RF significantly affects the socio-economic activities on the island Warming signals are already evident and there are evidences to suggest that sea level is rising Concluding Remarks

Climate variability has significant impacts in Viti levu (also other islands in the pacific) on all strata of socio-economic activity. While climate disasters (cyclones, floods and droughts) have prime impacts, inter-annual variability continually affects agricultural production, water resources, energy and many other sectors. Concluding Remarks

Observed signals of climate change and enhanced climate variability in Viti levu call for a number of critical actions: Island/region & sector specific adaptation strategies based on proven knowledge Concluding Remarks