Hi everyone
The paper I
read (Wójtowicz et al., 2015) summarize the various systems of Remote-Sensing used
in agriculture and gives a clear view over the common methods of Vegetation-Indices.
In agriculture, it is among other things of great importance to act in an
economic way. Applied on production means this the knowledge of the actual
state is worth the money and provides high yields as well as less deficit in
producer goods.
The use of Remote-Sensing
and the associated Vegetation-Indices, to generate information about the field,
is since the 1950’s a customary method; and with the improvements in technology
over the last 70 years, Remote-Sensing is nowadays in width application. (http://earthobservatory.nasa.gov/Features/RemoteSensing/)
The
astonishing about Remote Sensing is that electromagnetic radiation gives us an
idea of how healthy the plants are or if they for instance need nutrition. The
source of electromagnetic waves is first the sun, and because every surface on
earth reflects them on its own way, we can make assumptions whether it is for
example a house or a plant. Due to the fact that a plant in water stress or
nutrient undersupply has again another reflectance of the wavelength, we gain
lots of information about the biophysical features on the field. (http://lms.seos-project.eu/learning_modules/agriculture/agriculture-c00-p01.de.html)
Collecting
data in Remote-Sensing in the earlier days has been an expensive procedure, but
nowadays there are several ways to do so, and with the UAV’s (Unmanned aerial
vehicle) the prize became more reasonably. The three ways to gain remote-sensing
data are: Satellites, Airborne (Aircraft, UAV, Drone) and Ground-Based Methods.
The Vegetation-Indices
used in agriculture are ratios or differences of several wavelengths, such as
VIS (visible light, 380-780nm), NIR (near infrared, 780-3000nm), TIR (thermal
infrared, 7000-14000nm) and other more. The most frequently calculate
Vegetation-Index is the NDVI (normalized difference vegetation index), which determines
the density of green on a patch of land. More specialised statements can be
made with other Vegetation-Indices. As a further example, scientists can
estimate the nitrogen status of plants with the CI (chlorophyll index). The
high correlation between the indices and the biophysical characteristics is of
great use in agriculture and environmental-specific questions. Some application
examples:
- · Forecasting of yield
- · Nutritional requirements of plants
- · Detection of diseases and pest-damages
- · Assessment of water demands of plants
- · Weed control
In
combination with ground-truth samples and reducing fault factors, such as soil
background, Vegetation-Indices has very little susceptibility to errors. (Wójtowicz
et al., 2015)
For our project
in Schinznach-Dorf I suspect it would be good to know what’s the amount of
water running through the plants during a day. By using the UAV, we can produce
aerial images of the tree nursery and estimate how much water is in the soil by
using TIR-Data and the RRI (relative reflectance index). Probably the CWSI
could be helpful as well. Further investigations on that topic are necessary.
Find out which RS-Information are needed by the guys from the water-balance
team and developing a measurement design will be the next steps in our project.
Thanks for
reading
bye
Yield =
Ertrag
Susceptibility
= Anfälligkeit
Pest =
Schädlinge
article: Wójtowicz et al., 2015; http://agrobiol.sggw.pl/~cbcs/articles/CBCS_11_1_3.pdf
article: Wójtowicz et al., 2015; http://agrobiol.sggw.pl/~cbcs/articles/CBCS_11_1_3.pdf
Hi,
AntwortenLöschenYour article seems to be quite interesting, especially as those methods of remote sensing provide a great chance for agriculture as well as for tree nurseries. The possibility to react quicker to lack of nutrition or water, or to the impact of pests might be a great chance to minimize losses of the yield.
Besides the advantages, I assume one must consider many factors when using Remote-Sensing. For example, the weather conditions, the turbidity of the atmosphere and the soil humidity or can you eliminate them by ground-truth samples?
For your proposal about our project, I think it’s a good idea to measure the consumption of water by the plants. After we got some information from our site visit we might also consider to measure how much water can be recycled, how much evaporates, or gets transpired. With the help of UVA, we certainly will be able to identify which areas of the tree nursery are covered with plants and which are not.
I astonish what will finally be possible to examine at the tree nursery.
Best wishes
SW
Your post offers a concise summary of the given paper. I also like that you clearly draw links from the paper to your Project in Schinznach. I especially like your intention to link the RS subproject to the other subprojects – follow up on this aspect! You mention that with RS you can estimate “the amount of water running through the plants”. After having heard Luzi’s lecture on water balance, can you be more specific here? Which variables could you measure and how? Can you start thinking about a research question to be addressed with RS within the project? The blog post is presented in a nice format. Your English can still be improved. There are quite some typos, and many sentences are structured in a German way, rather than the way it would be done in English. This is of course difficult to improve. One way would be to have the text corrected by a friend or colleague before you publish it.
AntwortenLöschenHey Johnny
AntwortenLöschenAs you commented in my blog, it would be great to find a way to combine the remote-sensing methods you described in your blog entry (which i read with joy btw. ) and the examinations directly on the crops. According to your text, there are plenty of different remote-sensing methods we could use to examine the vegetation oft the tree nursery in schinznach. But due to de short time frame, we should keep it simple to get at least partly representative data oft the water balance in the tree nursery. One possible way would be to calculate the evapotranspiration of the tree nursery by using remote-sensing data and the FAO56 method as I described in my blog (a little bit of house advertising at this point ;))
See you
MR