Detecting Aphid Concentration in Wheat Leaf Using Remote Sensing and GIS

Authors

  • Rao Mansor Ali Khan Department of Space Science, University of Punjab.
  • Saira Batool Department of Space Science, University of Punjab.
  • Qamar Shabbir Rana Department of International Relations, National Defense University Islamabad.
  • Syed Amer Mahmood Department of Space Science, University of the Punjab
  • Mamoon ur Rasheed Department of Space Science, University of the Punjab
  • S M Hassan Department of Space Science, University of the Punjab, Lahore, Pakistan

Keywords:

Aphid; Conventional Agricultural method; Moistourizing agent; Agro-climatic condition.

Abstract

Wheat lies among the most prominent cereal crop of Pakistan which has a significant role in the stability of Pakistan’s economy. Certain biotic and a biotic factors including agro-climatic conditions, rainfall, lack of irrigation infrastructure and conventional agricultural methods are raising the risk of aphid attacks. The current study utilized satellite imagery for obtaining thermal datasets of complete wheat growth. Results revealed that rainfall is a significant parameter for the determination of aphid growth on wheat plant. A region receiving 0-10 mm rainfall, supported the growth of aphid. Moreover, the aphid survival was highly supported at a moderate temperature ranging between 20-25 oC with relative humidity ranging from 70-75 %. The study also revealed the production of weed in wheat crop acted as a moistrizing agent which consequently provided favorable conditions to the aphid population for growth. Inapropriate usage of fertilizers increased the nitrogen content in soil which turned to be favourable for the aphid attack. Thus, the study concludes that agro-climatic conditions must be considered before the aplication of pesticides.

Full Text

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Published

2022-04-19

How to Cite

Khan, R. M. A., Saira Batool, Qamar Shabbir Rana, Syed Amer Mahmood, Mamoon ur Rasheed, & S M Hassan. (2022). Detecting Aphid Concentration in Wheat Leaf Using Remote Sensing and GIS. International Journal of Innovations in Science & Technology, 4(2), 336–347. Retrieved from https://journal.50sea.com/index.php/IJIST/article/view/239

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