the risk of overdrawing the aquifer

the risk of overdrawing the aquifers with consequent salt–water
intrusion have made it necessary to develop strong recommendations
on water usage for growers and land use planning authorities.
Therefore, the scientifically applied agricultural research programs
related to water saving and conservation are essential in the Konya
Plain, where agricultural activities account for more than 75% of the
total water consumption. Water conservation can also be achieved
by improving the efficiency of water utilization by crops, including
the cultivation of plants that are less demanding for seasonal irrigation
water. In this context, pumpkin is one of the most important
plants. It demands lower water consumption compared with other
crops, such as sugar beet, corn, and carrot, in Middle Anatolian.
Pumpkin serves as a reliable source of produce and provides
a household food security to the growers. Its leaves, flowers, and
fruits are used as vegetables, and roasted seeds as snacks (Mwaura
et al., 2014). Pumpkin seeds contain the antioxidant beta-carotene,
which helps improve immune function and reduce the risk of cancer
and heart disease. In addition, pumpkin seeds also containmany
vitamins and nutrients, including calcium, iron, magnesium, potassium,
zinc, selenium, nicotinic acid, folic acid, and vitamins A, C, and
E (Ghanbari et al., 2007; Ondigi et al., 2008).
Water deficit is an important factor that affects the crop production
under arid and semiarid conditions (Hussain et al., 2004).
It affects almost all plant growth processes. However, the response
to drought stress depends on the intensity, the rate and duration
of exposure, and the stage of crop growth (Wajid et al., 2004). The
crop yield is mostly affected by the field water management, particularly
in irrigation-based agriculture in arid and semiarid regions
(Al-Omran et al., 2005). It is necessary to maximize the yield by
making most efficient use of available water to sustain with rapid
industrialization and urban development. Therefore, we need to
supply the right amount of water required by a crop. Furthermore,
it is essential to develop a suitable irrigation schedule to get the
optimum yield for a particular ecological region, as plant water
consumption depends mostly on plant growth, soil, and climatic
conditions (Ertek et al., 2004).
Al-Omran et al. (2005) studied squash using surface drip irrigation
(DI) and subsurface drip irrigation (SDI) methods in sandy
soils with three clay deposits and found that the fruit yield shows
a linear relationship with the increased irrigation level for each
season under the same treatment. They found that fruit yields significantly
increased with clay deposits compared with control. The
differences between DI and SDI on fruit yields were also significant.
The seasonal water use of squash (Cucurbita pepo L.) was 304
and 344mm over 93 days in spring and 238 and 272mm over 101