Abstract:
Heat stress is a condition that negatively affects the performance of livestock. This
study examined the magnitude of heat stress in livestock by analyzing the
Temperature Humidity Index (THI) across three climatic zones in Sri Lanka over the
past five years. The daily THI was calculated for cattle (THIcattle), broilers (THIbroiler),
layers (THIlayer), and swine (THIswine) using category-specific thermal models for 12
locations to represent wet zone (WZ), intermediate zone (IZ) and dry zone (DZ).
Those values were used to analyze the monthly and annual variations within and
across the zones and to calculate the number of days higher than the threshold
(THIthreshold) for each livestock category. The data were analyzed by one-way analysis
of variance. The results indicated that the THIcattle fluctuated in a wider range from
53.28 to 97.08 while the THIbroiler ranged from 19.90 to 36.48. Further, the THIlayer
ranged from 19.00 to 33.82, and THIswine varied from 19.10 to 36.96. Further,
THIbroiler,THIlayer, and THIswine were significantly higher (p<0.05) in the DZ compared
to the WZ and IZ while THIcattle were significantly higher (p<0.05) in both WZ and
DZ compared to the IZ. Furthermore, the THI index indicated that cattle in the DZ
were above the THIthreshold for 348±17 days year-1, while in the IZ, it was reported as 260±22 days year-1. The number of days higher than the THIthreshold for cattle and
layers was significantly higher in the DZ and WZ (p<0.05) than IZ. The THIbroiler and
THIswine indicated that the THIthreshold was above 300 days year-1 and 267±31 days year 1, respectively, regardless of the climatic zone. These findings highlight the need for
climatic zonal and species-specific heat stress management strategies, especially in
the dry zone during the peak months to enhance livestock productivity and welfare.
