Initial steps for high-throughput phenotyping in vineyards

Authors

  • K. Herzog
  • R. Roscher
  • M. Wieland
  • A. Kicherer
  • T. Läbe
  • W. Förstner
  • H. Kuhlmann
  • R. Töpfer

DOI:

https://doi.org/10.5073/vitis.2014.53.1-8

Keywords:

image-based phenotyping, grapevine breeding, image analysis, depth maps, BBCH, bud burst, berry size, non-invasive

Abstract

The evaluation of phenotypic characters of grapevines is required directly in vineyards and is strongly limited by time, costs and the subjectivity of person in charge. Sensor-based techniques are prerequisite in order to allow non-invasive phenotyping of individual plant traits, to increase the quantity of object records and to reduce error variation. Thus, a Prototype-Image-Acquisition-System (PIAS) was developed for semi-automated capture of geo-referenced images in an experimental vineyard. Different strategies were tested for image interpretation using MATLAB®. The interpretation of images from the vineyard with real background is more practice-oriented but requires the calculation of depth maps. Different image analysis tools were verified in order to enable contactless and non-invasive detection of bud burst and quantification of shoots at an early developmental stage (BBCH 10) and enable fast and accurate determination of the grapevine berry size at BBCH 89. Depending on the time of image acquisition at BBCH 10 up to 94 % of green shoots were visible in images. The mean berry size (BBCH 89) was recorded non-invasively with a precision of 1 mm.

 

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Published

2015-03-24

Issue

Vol. 53 No. 1 (2014): Vitis

Section

Article

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