CSPP221 Unit 2-Precision Agriculture.pdf

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Faculty of Natural and Agricultural Sciences

School of Geo and Spatial Sciences

Programme: BSc Agriculture

CSPP221 – 12 credits
Module Name: Introduction into Agronomy

LECTURE 4 - Precision Agriculture
Study Unit 2

Precision Agriculture
Recommended reading material for the Unit
Roy, T. & J. George K
(2020). Precision farming:
A step towards
sustainable, climate-smart
agriculture. In Global
Climate Change: Resilient
and Smart Agriculture (pp.
199-220). Springer,
Singapore.
https://link.springer.com/co
ntent/pdf/10.1007%2F978-
981-32-9856-9_10.pdf
 Introduction
What is Precision Agriculture ❑ Subfield - A smaller portion of a field
❑ It is a farming management concept based on observing, and allows for more precise and accurate
measuring and responding to inter and intra-field decision making
variability in crops to
1) Reduce waste ❑ Variability - Spatial & temporal
2) Increase profit ❑ Spatial variability is the driving force behind
3) Maintain the quality of the environment Precision Agriculture

❑ Technology - innovative products, tools,
❑ Also referred to as satellite farming or site-specific and processes that are available to
crop management (SSCM) farmers to use in the management of
their acres e.g. data collection tools,
sensors, spatial analysis etc.
❑ It has also been described as site specific farming
refers to the ability to collect data and make decisions ❑ Efficiency - management and decision-
in smaller areas than an entire field
❑ In the past farmers collected the data and averaged the
making efficiency as a result of the use
entire field (average tons of grain /ha) with the assumption Precision Agriculture Technology
that the entire field had the same value
❑ Currently we have the ability to mark off/identify a small area ❑ Benefits - environmental, economic,
of a field or a subfield. management etc.
❑ The five areas of interest in Precision Agriculture include:
subfield, variability, technology, efficiency, benefits
Introduction… cont
❑Precision agriculture makes use of new technologies
combined with collected field information:

▪ To come up with more precise farm management practices e.g.
optimum planting density, fertilizer application, pesticide
application etc.

▪ To have an accurate yield prediction

▪ To make sure the input application matches the variation in
the growing conditions within a field, hence the name site-
specific management

❑ The underlying concept in precision agriculture is “doing
the right thing, in the right place, at the right time
and in the right way”
Introduction… cont
❑Why precision agriculture
❑ Precision agriculture was necessitated by the fatigue from the green
revolution, associated declining yields and the need to reduce the
degradation of natural resources.
❑Growers are facing increased input costs e.g. fuel
❑Labour is becoming harder to find and very expensive
❑ Allows farms to reduce labour needs
❑Environmentally friendly by putting inputs precisely where they are
needed
❑Generate farm specific data to increase profits
Tools and equipment for precision agriculture
❑Global Positioning System (GPS):
▪ Provides continuous position information in real-time and in motion.
▪ Allows soil and crop measurements to be mapped
▪ One can easily return to specific locations to sample or treat those areas

❑Geographic Information Systems (GIS):
▪ Software imports, exports and processes spatially and temporally
geographically distributed data.
▪ Allows for automated farm operations
Continued…Tools and equipment for precision
agriculture
❑Grid sampling:

▪ Field is broken into grids of about 0.5-5
hectares

▪ Allows for precise and accurate decision
making
 Continued…Tools and equipment for precision
agriculture
❑Information or database:

▪ Refers to data/information used in the process of applying precision
agriculture

▪ The data can be soil related, crop related, weed related, insect or fungal
infestations, crop yield and climate related data

▪ For example-crop yield data is used to create yield maps using data from a
combine harvester equipped with a GPS
Continued…Tools and equipment for precision
agriculture
❑Remote sensors:
▪ They can be aerial or satellite sensors
▪ Purpose is to indicate variations in the colours of the field that
corresponds to changes in soil type, crop development, field boundaries,
roads, water, etc.
▪ Aerial and satellite imagery can be processed to provide vegetative
indices, which reflect the health of the plant

❑Proximate sensors: These sensors can be used to measure soil
parameters and crop properties as the sensor attached tractor
passes over the field
Continued…Tools and equipment for precision
agriculture
❑Variable Rate Technology (VRT):
▪ Use of crop and soil variability to precisely apply products
using product requirement map
▪ For example, spray booms, with ECU and GPS are used
effectively for patch spraying.

❑Computer Hardware and Software:
▪ Mainly for data analysis and making it available in usable formats such as
maps, graphs, charts or reports

❑Precision irrigation systems:
▪ Controls the irrigation machines (i.e. flow and pressure) to achieve higher
water use efficiency.
Steps in precision agriculture

❑There are three basic steps in the implementation of precision
agriculture:

(1) Identification and assessment of variability

(2) Managing the variability

(3) Evaluation of the practices
Steps in precision agriculture

1) Identification and assessment of variability

❑The field data is geo-located and characterised through:
▪ Grid soil sampling - variability maps are drawn
▪ Crop scouting
▪ Through other advanced tools of precision agriculture
Continued…Steps in precision agriculture
2) Management of variability-decision making and implementation stage

❑Variable rate application
▪ Input application maps are plotted and loaded into a computer mounted on a
variable-rate input applicator for site-specific input application

❑Yield monitoring and mapping
▪ Essential for making sound management decisions on the effects of managed
inputs

❑Quantifying on farm variability
▪ It is advised for a farm to use one or two of the precision agriculture tools at a
time and carefully evaluate the results before adding others
Continued…Steps in precision agriculture

3) Evaluation of precision farming

❑Economic analysis

❑Environmental assessment

❑Rate of transfer of technology
Critical issues to consider before adopting
precision agriculture
❑The following questions must be addressed to help determine
the potential for precision agriculture:

▪ How much do measured soil and crop characteristics vary?

▪ How much does the variation affect crop yield/or crop quality?

▪ Can the farmer get enough information and the right technologies to
profitably manage the variability?
Advantages of precision agriculture

1) Economic benefits

▪ Strives for efficient practices

▪ Increases productivity due to the tailor-made management practices

▪ Allows for maximum use of minimum land unit
Continued…Advantages of precision agriculture

2) Environmental benefits-protects the environment by reducing
the amount of chemicals released into the environment

3)Farm management improvement

4) Record-keeping improvement
Possible obstacles to the practice of precision
agriculture
❑Farmer perceptions and lack of resources
❑Small farms make it hard and uneconomic to implement precision
agriculture
❑Land ownerships, infrastructure and institutional constraints
❑Lack of expertise in precision agriculture
❑Complicated procedures
❑Data availability, quality of the data
❑High costs of machinery and collection of site-specific data
❑Heterogeneity of cropping systems
❑Benefits are not apparent at least in the short term.
END