Climate plays a dominant role in ag

Climate plays a dominant role in agriculture having a
direct impact on the productivity of physical production
factors, for example the soil’s moisture and fertility.
Adverse climate effects can influence farming outputs at
any stage from cultivation through the final harvest. Even
if there is sufficient rain, its irregularity can affect yields
adversely if rains fail to arrive during the crucial growing
stage of the crops (Smith and Skinner, 2002; Molua and
Lambi, 2007; Rudolf and Hermann, 2009).
Generally, there are many factors influencing crop
production and these include soil, climate and diseases
among others. In relation to climate, rainfall is the
dominant controlling variable in tropical agriculture since
it supplies soil moisture for crops and grasses for
animals. According to Ayoade (1983), agriculture largely
depends on climate to function. Hence, precipitation,
solar radiation, wind, temperature, relative humidity and
other climatic parameters affect and solely determine the
global distribution of crops and livestock as well as their
productivity.
Rainfall, among other factors, has always dictated how
land is used in one way or another and it also affects the
humidity condition of the atmosphere. Rainfall determines
the vegetation cover of a particular geological zone and
crop distribution. Heavy rainfall facilitates the growing of
tree crops like cocoa, rubber, oil palm possible in the
rainforest. Some of the attributes of rainfall that are
important to crop production are the time of onset of the
raining season, total amount of rainfall, distribution,
number of rainy days and duration of rainfall as well as
the time of its cessation (Akintola, 1995). Furthermore,
rainfall determines the amount of moisture present in the
soil which is ultimately made available to plants. Water
plays a vital role in the growth of plant and it provides the
medium through which nutrients are carried through the
plant. According to Olaoye (1999), regular occurrence of
drought as a result of erratic rainfall distribution and/or
cessation of rain during the growing season reduce
Nigeria’s capability for increased crop production.
Sdoodee and Rongsawat (2012) concluded that high
rainfall tended to decrease tapping days per year. From
the results, it was suggested that climate change and
climate variability in Songkhla province tends to reduce
latex yield because of an increase of rainfall leading to a
reduction of tapping days.