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Computer Tools for Diagnosing Citrus Leaf Symptoms (Part 2): Smartphone Apps for Expert Diagnosis of Citrus Leaf Symptoms

Arnold Schumann, Laura Waldo, Perseveranca Mungofa, and Chris Oswalt

Visual identification of nutrient deficiencies in foliage is an important diagnostic tool for fine-tuning nutrient management of citrus. Disease and pest symptoms on leaves may cause chlorotic patterns that can confound the diagnosis of nutrient deficiency symptoms. An expert-trained person can distinguish and correctly identify most of the common leaf symptoms seen in Florida citrus, but it can take years to build experience and confidence. Due to the abundance of new computer technology in the artificial intelligence realm, it is now possible to package a trained artificial neural network model in a standard smartphone app. The app, operated by an untrained person, can automatically recognize most of the leaf symptoms from video taken with the smartphone camera.

Figure 1. 
Figure 1. 
Credit: UF/IFAS 

Currently the app is working on any smartphone, tablet, PC or Mac browser. The citrus leaf symptoms that can be recognized by the smartphone app include canker, HLB and greasy spot diseases, two-spotted spider mites, and deficiencies of magnesium, iron, manganese, and zinc. Healthy leaves with no symptoms are also identified as such. Spider mite, greasy spot, and canker damage can also be identified by the symptoms visible on the abaxial (lower) surfaces of leaves. If the symptoms are more pronounced on the abaxial side, then the user should ensure that both surfaces of the leaf are photographed. The accuracy of correct identifications was on average 89% in tests conducted with the first-generation app. With more data and training, the accuracy was improved to 98.5%. Additional leaf symptoms were added, including phytophthora, citrus scab, and nitrogen deficiencies.

  • Because accuracy is the highest priority, users are encouraged to maximize performance of the app by placing individual leaves on white paper in a well-illuminated environment (e.g., a room or car), as shown in the illustrations. A brightly lit indoor environment is ideal.
  • Aim the smartphone so that the leaf image is centralized on the screen and fills about 30%–50% of the width of the screen, as shown.
  • Hold the camera steady for best results, while reading the identifications on the screen.
Figure 2. 
Figure 2. 
Credit: UF/IFAS 



Redmon, Joseph, and Ali Farhadi. 2018. YOLOv3: An Incremental Improvement. University of Washington.

Funded by: HLB Multi-Agency Coordination (MAC) System.

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Peer Reviewed

Publication #SL478

Release Date:August 21, 2023

Related Experts

Schumann, Arnold W.


University of Florida

Waldo, Laura J.


University of Florida

Oswalt, W. Chris

County agent

University of Florida

Fact Sheet

About this Publication

This document is SL478, one of a series of the Department of Soil, Water, and Ecosystem Sciences, UF/IFAS Extension. Original publication date September 2020. Revised August 2023. Visit the EDIS website at for the currently supported version of this publication.

About the Authors

Arnold Schumann, professor; Laura Waldo, biological scientist III; Perseveranca Mungofa, graduate student, UF/IFAS Citrus Research and Education Center; and Chris Oswalt, UF/IFAS Extension multi-county citrus agent (Polk/Hillsborough County area), UF/IFAS Extension Polk County; UF/IFAS Extension, Gainesville, FL 32611.


  • Arnold Schumann