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Logical thinking, analysis and synthesis

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Multispectral analysis of remote sensing data for early diagnosis of biotic ... The images were analysed to obtain the NDVI, SAVI and IPVI ... – PowerPoint PPT presentation

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Title: Logical thinking, analysis and synthesis


1
Multispectral analysis of remote sensing data for
early diagnosis of biotic stress in the potato
crop
Chávez, P. , P. Zorogastúa, C. Chuquillanqui ,
L.F. Salazar, V. Mares and R. Quiroz
CIP Annual Meeting November 2008
2
Outline
  • Description of the problem
  • Principles of multispectral analysis
  • The experimental work
  • Results
  • Conclusions
  • Future work

3
The problem
  • Viruses such as (PYVV) threatens potato
    production in South America.
  • Visual field monitoring is used to detect PYVV
    infection but the disease is detected after
    significant damage has occurred to photosynthetic
    tissues.
  • A method for early diagnosis before yields are
    severely affected would be useful.
  • We suggest that the measurement of canopy
    reflectance at several wavelengths, would allow
    disease patches to be identified earlier and
    thus, properly controlled.

4
Principles of multispectral analysis
  • The multispectral analysis is based on the
    absorption, reflection and transmission of solar
    radiation by plant tissues
  • Reflectivity and absorption of light is
    determined by the biochemical and structural
    components of the plant, such as chlorophyll,
    water, proteins and cell wall materials
  • All these components, particularly chlorophyll
    content, are affected by diseases, resulting in
    differences in the spectral signature of healthy
    and stressed plants

5
The experimental work
  • Three indoors experiments with a split-plot in
    time design with inoculated and control
    treatments in the main plot, and time
    measurements as sub-plots
  • Six plants infected with PYVV and 3 virus-free as
    control comprised each repetition.
  • The PYVV infection was induced through lateral
    graft in plants about 2 weeks after emergence
  • A visual assessment of both PYVV-infected plants
    and virus-free plants was continuously conducted
  • Multispectral images of the same plants were
    periodically recorded using an Agricultural
    Digital Camera equipped with visible red and near
    infrared sensors
  • The images were analysed to obtain the NDVI, SAVI
    and IPVI
  • Light reflectance was recorded by a Li-Cor 1800
    spectroradiometer, covering the 350-850 nm
    wavelength region.
  • First and second-order derivatives were
    calculated for the spectroradiometric
    measurements as well as for the vegetation
    indices calculated from the spectral photography

6
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7
Results
  • Vein yellowing symptoms in leaves were visually
    noted in infected plants 39 days after
    inoculation.
  • A distinct reflectance pattern from infected
    plants was evident for several wavelengths 23
    days after inoculation
  • The vegetation indexes tested also showed that
    from as early as 23 days after inoculation the
    NDVI, SAVI, and IPVI values could differentiate
    healthy from unhealthy plants

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11
Conclusions
  • Changes in reflectance detected by remotely
    sensed spectroradiometry and multispectral
    imagery provided early detection of viral
    infection, long before symptoms were detected by
    the trained eye.
  • An earlier observation of symptoms of damage to
    the photosynthetic micro-anatomy of plants will
    allow for an effective control of the viral
    infection and a lesser negative impact on yield.
  • Infected plants presented differential
    reflectance from healthy ones in the blue and red
    regions of the electromagnetic spectrum, which
    will permit the design of low cost detection
    devices in the visible range of the spectrum.

12
Future work
  • Further tests under field conditions where tuber
    yields are measured will be conducted.
  • An earlier observation of symptoms of damage to
    the photosynthetic micro-anatomy of plants will
    allow for an effective control of the viral
    infection and a lesser negative impact on yield.
  • Infected plants presented differential
    reflectance from healthy ones in the blue and red
    regions of the electromagnetic spectrum, which
    will permit the design of low cost detection
    devices in the visible range of the spectrum.

13
Thank you
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