Authors :
Mysa Jane M. Alla; Rhenalie N. Bello
Volume/Issue :
Volume 6 - 2021, Issue 12 - December
Google Scholar :
http://bitly.ws/gu88
Scribd :
https://bit.ly/3rJR1pJ
DOI :
https://doi.org/10.5281/zenodo.5897369
Abstract :
This study focused on the effect of climate
change on agricultural productivity. The purpose of the
study was to determine the rainfall pattern in North
Cotabato from 2006 to 2020, the trend of minimum and
maximum temperatures in North Cotabato from 2006 to
2020, the relationship between rainfall, temperature, and
crop yield, and the effects of rainfall and temperature on
crop yield. Rainfall, temperature and crops (rice, corn,
pineapple, banana and coconut) data were obtained for a
period of 15 years from Department of Science and
Technology- Philippine Atmospheric, Geophysical and
Astronomical Services Administration (DOST-PAGASA)
and Philippine Statistics Authority (PSA). Multiple linear
regression techniques were used to evaluate the
relationship between rainfall, temperatures, and
agricultural yield. Maximum temperature has a negative
impact on rice and pineapple yield, whereas minimum
temperature has a significant impact on all crops,
according to the study's findings. With the exception of
banana and coconut, rainfall has a negative impact on
agricultural output
Keywords :
Agricultural Productivity, Climate Change, Rainfall, Temperature.
This study focused on the effect of climate
change on agricultural productivity. The purpose of the
study was to determine the rainfall pattern in North
Cotabato from 2006 to 2020, the trend of minimum and
maximum temperatures in North Cotabato from 2006 to
2020, the relationship between rainfall, temperature, and
crop yield, and the effects of rainfall and temperature on
crop yield. Rainfall, temperature and crops (rice, corn,
pineapple, banana and coconut) data were obtained for a
period of 15 years from Department of Science and
Technology- Philippine Atmospheric, Geophysical and
Astronomical Services Administration (DOST-PAGASA)
and Philippine Statistics Authority (PSA). Multiple linear
regression techniques were used to evaluate the
relationship between rainfall, temperatures, and
agricultural yield. Maximum temperature has a negative
impact on rice and pineapple yield, whereas minimum
temperature has a significant impact on all crops,
according to the study's findings. With the exception of
banana and coconut, rainfall has a negative impact on
agricultural output
Keywords :
Agricultural Productivity, Climate Change, Rainfall, Temperature.
