Submission declined on 28 May 2024 by
Kline (
talk). This submission reads more like an
essay than an encyclopedia article. Submissions should summarise information in
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Submission declined on 24 April 2024 by
CanonNi (
talk). This submission does not appear to be written in
the formal tone expected of an encyclopedia article. Entries should be written from a
neutral point of view, and should refer to a range of
independent, reliable, published sources. Please rewrite your submission in a more encyclopedic format. Please make sure to avoid
peacock terms that promote the subject. Declined by
CanonNi 2 months ago. | ![]() |
Green chemistry, with its focus on environmentally friendly practices and technologies, is increasingly recognised for its potential to transform various industries. [1]. While it is often associated with pharmaceuticals and manufacturing, the application of green chemistry principles in agriculture is an area of interest [2]. By integrating environmentally benign practices and innovative technologies, green chemistry can be a solution to address the ecological and human health challenges associated with conventional agricultural practices, particularly in developing countries like Nigeria.
Conventional agriculture relies on chemical inputs such as fertilisers, pesticides, and herbicides to maximise farm product yields [3]. While these inputs have potentially increased agricultural productivity but their use has also raised environmental and health risks concerns. Runoff from agricultural chemicals can contaminate water bodies, degrade soil quality, and harm biodiversity.
Recognising these challenges, there is need to incorporate green chemistry in the agricultural sector in order to mitigate environmental impacts while improving and maintaining a high level of productivity [3] [4]. Green chemistry aims to design processes and products that minimise the use and generation of hazardous substances, thereby reducing pollution and promoting sustainability [5] [6]. In the context of agriculture, this approach involves developing and implementing practices that reduce environmental impact while maintaining or even improving productivity.
The following are some of the innovations derived from green chemistry and applied to agriculture:
1. Bio-based Pesticides and Fertilizers
These are derived from renewable resources such as plant extracts, microorganisms, and naturally occurring minerals [7]. Bio-based pesticides offer pest control [8] with reduced toxicity to non-target organisms, while bio-fertilizers enhance soil fertility through natural processes.
2. Precision Agriculture
This technology-driven approach uses sensors, drones, and data analytics to optimize resource use and minimize environmental impact [9]. By precisely targeting inputs such as water, nutrients, and pesticides, farmers can reduce waste and minimize the risk of environmental contamination [10].
3. Green Solvents and Formulations
Green chemistry promotes the use of safer, more sustainable solvents and forumlations that reduce environmental persistence and toxicity [11] [12] [13]
4. Biodegradable Mulches and Films
Traditional plastic mulches and films used in agriculture contribute to plastic pollution [14]. Green chemistry offers biodegradable alternatives made from renewable materials such as starches, cellulose, and polylactic acid (PLA) [15]
Despite the potential benefits, the widespread adoption of green chemistry in agriculture faces challenges [16] [17]. These challenges include, economic constraints, regulatory barriers, and the need for education and outreach. Transitioning from conventional to green chemistry-based approaches may require investment in research, development, and infrastructure.
However, the potential opportunities of green chemistry in agriculture should be explored [18], regardless of these challenges. Green chemistry in agriculture can mitigate environmental impacts, enhance resilience to climate change, improve soil health, and promote biodiversity.
Green chemistry is a potential approach to addressing the environmental and health challenges associated with traditional and/or conventional agricultural practices. The agricultural sector can transition towards more environmentally benign practices by embracing sustainability, innovation, and efficiency. Continued research, collaboration, and investment in green chemistry have the potential to transform agriculture and ensure food security for future generations while safeguarding the planet.
Submission declined on 28 May 2024 by
Kline (
talk). This submission reads more like an
essay than an encyclopedia article. Submissions should summarise information in
secondary, reliable sources and not contain opinions or
original research. Please write about the topic from a
neutral point of view in an
encyclopedic manner.
Where to get help
How to improve a draft
You can also browse Wikipedia:Featured articles and Wikipedia:Good articles to find examples of Wikipedia's best writing on topics similar to your proposed article. Improving your odds of a speedy review To improve your odds of a faster review, tag your draft with relevant WikiProject tags using the button below. This will let reviewers know a new draft has been submitted in their area of interest. For instance, if you wrote about a female astronomer, you would want to add the Biography, Astronomy, and Women scientists tags. Editor resources
| ![]() |
Submission declined on 24 April 2024 by
CanonNi (
talk). This submission does not appear to be written in
the formal tone expected of an encyclopedia article. Entries should be written from a
neutral point of view, and should refer to a range of
independent, reliable, published sources. Please rewrite your submission in a more encyclopedic format. Please make sure to avoid
peacock terms that promote the subject. Declined by
CanonNi 2 months ago. | ![]() |
Green chemistry, with its focus on environmentally friendly practices and technologies, is increasingly recognised for its potential to transform various industries. [1]. While it is often associated with pharmaceuticals and manufacturing, the application of green chemistry principles in agriculture is an area of interest [2]. By integrating environmentally benign practices and innovative technologies, green chemistry can be a solution to address the ecological and human health challenges associated with conventional agricultural practices, particularly in developing countries like Nigeria.
Conventional agriculture relies on chemical inputs such as fertilisers, pesticides, and herbicides to maximise farm product yields [3]. While these inputs have potentially increased agricultural productivity but their use has also raised environmental and health risks concerns. Runoff from agricultural chemicals can contaminate water bodies, degrade soil quality, and harm biodiversity.
Recognising these challenges, there is need to incorporate green chemistry in the agricultural sector in order to mitigate environmental impacts while improving and maintaining a high level of productivity [3] [4]. Green chemistry aims to design processes and products that minimise the use and generation of hazardous substances, thereby reducing pollution and promoting sustainability [5] [6]. In the context of agriculture, this approach involves developing and implementing practices that reduce environmental impact while maintaining or even improving productivity.
The following are some of the innovations derived from green chemistry and applied to agriculture:
1. Bio-based Pesticides and Fertilizers
These are derived from renewable resources such as plant extracts, microorganisms, and naturally occurring minerals [7]. Bio-based pesticides offer pest control [8] with reduced toxicity to non-target organisms, while bio-fertilizers enhance soil fertility through natural processes.
2. Precision Agriculture
This technology-driven approach uses sensors, drones, and data analytics to optimize resource use and minimize environmental impact [9]. By precisely targeting inputs such as water, nutrients, and pesticides, farmers can reduce waste and minimize the risk of environmental contamination [10].
3. Green Solvents and Formulations
Green chemistry promotes the use of safer, more sustainable solvents and forumlations that reduce environmental persistence and toxicity [11] [12] [13]
4. Biodegradable Mulches and Films
Traditional plastic mulches and films used in agriculture contribute to plastic pollution [14]. Green chemistry offers biodegradable alternatives made from renewable materials such as starches, cellulose, and polylactic acid (PLA) [15]
Despite the potential benefits, the widespread adoption of green chemistry in agriculture faces challenges [16] [17]. These challenges include, economic constraints, regulatory barriers, and the need for education and outreach. Transitioning from conventional to green chemistry-based approaches may require investment in research, development, and infrastructure.
However, the potential opportunities of green chemistry in agriculture should be explored [18], regardless of these challenges. Green chemistry in agriculture can mitigate environmental impacts, enhance resilience to climate change, improve soil health, and promote biodiversity.
Green chemistry is a potential approach to addressing the environmental and health challenges associated with traditional and/or conventional agricultural practices. The agricultural sector can transition towards more environmentally benign practices by embracing sustainability, innovation, and efficiency. Continued research, collaboration, and investment in green chemistry have the potential to transform agriculture and ensure food security for future generations while safeguarding the planet.