Comparative Calculation of 3-Dimensional Surface Area and Water Flow Direction from Digital Elevation Models: A Case Study For The Agricultural Land in Eskisehir-Cifteler Irrigation
Özet
The significance of agricultural production and, consequently, numerous agriculture-related
parameters are becoming the primary focus of the digitalized world, and with the 2019
pandemic, the significance of food was once again highlighted. In order to ensure the correct
and necessary use of water in agriculture, valid surface area values by calculating the irrigated
parcel areas in 3-dimensions (3D) are required. The main purpose is to more accurately
calculate the amount of water used in irrigation areas on a parcel-by-parcel basis using 3D area
values, thereby preventing the plant from receiving insufficient or excessive water. In this way,
it is hoped that this will increase efficiency and help prevent losses in agricultural production
by ensuring that irrigation calculations are based on accurate area estimates. This thesis
compared the calculated area values derived from 3D data to the areas listed on the title deeds
for the study area located in the Eskisehir-Cifteler region. To achieve the stated objective,
DEMs were obtained from institutions and publicly accessible data sources. In addition,
information regarding the DTM's points was obtained from the General Directorate of Land
Registry and Cadaster (GDLRC). Utilizing elevation models and parcel data, the 3D
measurements of the parcels were obtained. Upon conducting an analysis, it is seen that there
is a difference of 235 hectares between the total surface area (GDLRC) and the total title deed
area for the selected test site. The area under investigation is a farming community that covers
an estimated total of 10.677,05 hectares. Compared to the total area, the difference might be
underestimated; however, considering the country level, it was found to be at a level that could
potentially cause substantial agricultural discrepancies.