Sustainable technology of 4060

Sustainable technology of 4060 ?

It seems like you’re interested in the Advantech WISE-4060, which is a Wi-Fi IoT Wireless I/O module. Here’s a breakdown of its sustainable technology aspects:

Key Features and Sustainability:

• Low Power Consumption: The WISE-4060 is designed for efficient operation, consuming only 2.5W at 24 VDC. This lower power consumption contributes to energy savings and reduced operational costs.
• Robust Design: Built with a durable PC enclosure and industrial-grade components, the WISE-4060 is designed for long-term use in harsh environments. This extends its lifespan and reduces the need for frequent replacements, minimizing waste.
• Wireless Communication: By utilizing Wi-Fi technology, the WISE-4060 reduces the need for extensive wiring, saving on materials and installation effort. It also allows for flexible deployment and remote monitoring, optimizing resource usage.
• Industrial Automation: The WISE-4060 plays a role in enabling industrial automation and remote monitoring, which can lead to increased efficiency and optimized resource utilization in various applications.

Potential Sustainability Benefits:

• Energy Efficiency: The low power consumption of the WISE-4060 contributes to energy savings, reducing the environmental impact associated with energy generation.
• Reduced Waste: The robust design and long lifespan of the module minimize the need for replacements, reducing electronic waste.
• Resource Optimization: By enabling industrial automation and remote monitoring, the WISE-4060 can help optimize resource usage in various applications, such as manufacturing, agriculture, and environmental monitoring.
• Environmental Monitoring: The WISE-4060 can be used in environmental monitoring applications, such as air and water quality monitoring, enabling better management of natural resources.

Overall, the Advantech WISE-4060 incorporates several sustainable technology aspects that contribute to energy efficiency, reduced waste, and resource optimization. Its role in enabling industrial automation and remote monitoring further enhances its potential for promoting sustainable practices in various applications.

Please note that the specific sustainability benefits of the WISE-4060 will depend on its actual application and how it is integrated into a larger system.

What is Sustainable technology of 4060 ?

You’re asking about the Advantech WISE-4060 and its “sustainable technology.” It’s important to understand that “sustainable technology” refers to practices that minimize environmental impact and conserve resources. Here’s how that applies to the WISE-4060:

WISE-4060 and Sustainability:

• Low Power Consumption: This is a big one. The WISE-4060 is designed to use minimal power (2.5W at 24 VDC). Less power consumption directly translates to lower energy use, which reduces the environmental impact of energy generation.
• Durability and Longevity: Industrial-grade components and a robust design mean the WISE-4060 is built to last. A longer lifespan means less frequent replacements, which reduces waste and the need for new materials.
• Wireless Communication: By using Wi-Fi, the WISE-4060 cuts down on the need for extensive wiring. This saves on materials and the energy/resources needed for manufacturing and installation. It also allows for more flexible deployment and remote monitoring, which can optimize resource use in the applications it serves.
• Enabling Industrial Automation: This is where the WISE-4060 can have the biggest impact. By enabling automation and remote monitoring, it can contribute to:
  • Increased efficiency: Automation often leads to optimized processes, reducing waste and energy use.
  • Resource optimization: Better monitoring and control can lead to more efficient use of resources like water, raw materials, or energy in various industries.

Sustainability Benefits in Practice:

The actual sustainability benefits depend on how the WISE-4060 is used. Here are some examples:

• Smart Agriculture: Deployed in a field to monitor soil conditions and automate irrigation, it can help conserve water and energy.
• Manufacturing: Used to monitor equipment performance and predict maintenance needs, it can reduce downtime, improve efficiency, and minimize waste.
• Environmental Monitoring: Deployed to monitor air or water quality, it can provide critical data for better environmental management.

Important Note: While the WISE-4060 itself has sustainable features, it’s part of a larger system. The overall sustainability impact depends on how it’s integrated and the practices of the industry or application it serves.

Who is required Sustainable technology of 4060 ?

The Advantech WISE-4060, with its focus on low power consumption, durability, and wireless communication, can be valuable for a wide range of users and industries who are looking to:

• Reduce their environmental impact: Companies and organizations committed to sustainability goals will find the WISE-4060’s energy efficiency and contribution to resource optimization appealing.
• Improve operational efficiency: Industries seeking to optimize processes, reduce waste, and improve resource utilization can leverage the WISE-4060 for automation and remote monitoring.
• Implement remote monitoring and control: Businesses requiring remote access to data and control of equipment in various locations can benefit from the WISE-4060’s wireless capabilities.
• Develop smart solutions: Developers and system integrators building IoT solutions for smart agriculture, smart manufacturing, smart cities, and other applications can use the WISE-4060 as a reliable and sustainable component.

Here are some specific examples of users who might require the sustainable technology of the WISE-4060:

• Industrial manufacturers: To monitor equipment performance, optimize production processes, and reduce energy consumption.
• Agricultural businesses: To monitor soil conditions, automate irrigation, and optimize resource use in farming operations.
• Environmental monitoring agencies: To collect data on air and water quality, track pollution levels, and manage natural resources.
• Building management companies: To monitor energy consumption in buildings, optimize HVAC systems, and improve overall building efficiency.
• Smart city developers: To implement solutions for smart lighting, traffic management, and other urban applications.

Essentially, anyone who needs a reliable, efficient, and sustainable solution for remote monitoring, control, and automation can benefit from the WISE-4060. Its features align with the growing need for environmentally conscious and resource-efficient technologies across various sectors.

When is required Sustainable technology of 4060 ?

The Advantech WISE-4060’s sustainable technology features become particularly important in several scenarios:

• Resource-constrained environments: When operating in remote locations or areas with limited access to power or resources, the WISE-4060’s low power consumption and wireless capabilities are crucial. This could be in environmental monitoring, remote agriculture, or industrial sites.
• Long-term deployments: For applications requiring long-term, unattended operation, the WISE-4060’s durability and low maintenance needs are essential for minimizing downtime and resource consumption. Think of remote sensor deployments or long-term monitoring stations.
• Sustainability initiatives: When organizations have specific sustainability goals, such as reducing energy consumption, minimizing waste, or improving resource utilization, the WISE-4060 can be a valuable component in achieving those targets. This applies across many industries.
• Cost-sensitive applications: While the initial cost might be a factor, the WISE-4060’s low power consumption and reduced maintenance can lead to long-term cost savings, making it attractive for budget-conscious projects. This is especially true when considering the total cost of ownership over the device’s lifespan.
• Applications with limited access: In situations where physical access to the device is difficult or dangerous, the WISE-4060’s remote monitoring and control capabilities are essential. This is relevant in hazardous environments, remote installations, or hard-to-reach locations.
• Scalable IoT deployments: When building large-scale IoT networks, the WISE-4060’s features, like wireless communication and ease of deployment, are beneficial for managing and maintaining a large number of devices efficiently and sustainably.

In short, the need for the WISE-4060’s sustainable technology becomes more pronounced when:

• Resources are limited: Power, maintenance access, etc.
• Long-term reliability is critical: Minimizing downtime and maximizing lifespan.
• Sustainability is a key objective: Reducing environmental impact.
• Cost-effectiveness is a major factor: Considering the total cost of ownership.
• Remote management is essential: Accessing and controlling devices remotely.
• Scale is a consideration: Deploying and managing large numbers of devices.

COURTESY : Voith Group

Where is required Sustainable technology of 4060 ?

You’re asking about the types of places where the Advantech WISE-4060’s sustainable technology features are most needed. Here’s a breakdown:

1. Remote and Off-Grid Locations:

• Environmental Monitoring: Think of research stations in the Arctic, weather stations in remote mountains, or water quality monitoring in isolated areas. These places often lack reliable power, making the WISE-4060’s low power consumption crucial.
• Remote Agriculture: Farms in remote areas may need to monitor soil conditions, automate irrigation, or track livestock. The wireless capabilities and low power needs of the WISE-4060 make it suitable for these situations.
• Industrial Sites: Oil and gas pipelines, mining operations, or remote manufacturing facilities often require monitoring and control in areas with limited infrastructure. The WISE-4060 can provide a sustainable solution for these applications.

2. Environments with Limited Resources:

• Developing Countries: In regions with limited access to resources like electricity or skilled labor, the WISE-4060’s low power needs, durability, and ease of use can be particularly valuable.
• Disaster Relief: After natural disasters, when infrastructure may be damaged, the WISE-4060 can be used for tasks like monitoring water quality, assessing damage, or setting up temporary communication networks.

3. Applications with Long-Term Deployments:

• Predictive Maintenance: In industrial settings, the WISE-4060 can be used to monitor equipment and predict maintenance needs, reducing downtime and resource waste over the long term.
• Smart Cities: For applications like smart lighting, traffic management, or environmental monitoring, the WISE-4060 can be deployed for extended periods, contributing to the sustainability of urban infrastructure.

4. Industries with Strong Sustainability Focus:

• Renewable Energy: Monitoring the performance of solar panels or wind turbines in remote locations requires sustainable solutions like the WISE-4060.
• Green Buildings: The WISE-4060 can be integrated into building management systems to optimize energy consumption and improve overall building sustainability.

5. Situations Where Remote Management is Crucial:

• Hazardous Environments: In places where it’s dangerous for humans to go, the WISE-4060 can be used for remote monitoring and control, ensuring both safety and sustainability.
• Hard-to-Reach Locations: Whether it’s a sensor in a difficult-to-access part of a factory or a monitoring device in a remote natural environment, the WISE-4060’s wireless capabilities make it suitable for these situations.

Essentially, the WISE-4060’s sustainable technology is most valuable in places where:

• Power is scarce or unreliable.
• Resources are limited.
• Long-term operation is essential.
• Remote management is necessary.
• Sustainability is a primary concern.

How is required Sustainable technology of 4060 ?

It seems like you’re interested in how the Advantech WISE-4060’s sustainable technology features are put to use. Here’s how it works:

1. Low Power Consumption in Action:

• The WISE-4060 is designed with energy-efficient components, minimizing the power it needs to operate.
• This is crucial in remote locations where power sources might be limited or unreliable (e.g., solar-powered setups, battery-powered devices).
• Less power consumption translates to lower energy costs and a reduced environmental footprint.

2. Durability and Longevity for Sustainability:

• The WISE-4060 is built with industrial-grade components and a robust enclosure, making it resistant to harsh environments.
• This ensures a longer lifespan, reducing the need for frequent replacements.
• Less frequent replacements mean less waste and less demand for new materials, contributing to a circular economy.

3. Wireless Communication for Efficiency:

• By using Wi-Fi, the WISE-4060 eliminates the need for extensive wiring.
• This saves on materials, reduces installation time and effort, and minimizes disruption to existing infrastructure.
• Wireless communication also allows for more flexible deployment and remote monitoring, optimizing resource use in the applications it serves.

4. Enabling Industrial Automation and Optimization:

• The WISE-4060 can be integrated into industrial automation systems to monitor equipment, control processes, and collect data.
• This enables:
  • Increased efficiency: Optimized processes reduce waste, energy use, and resource consumption.
  • Predictive maintenance: Monitoring equipment performance allows for proactive maintenance, preventing breakdowns and extending the lifespan of machinery.
  • Remote monitoring and control: Accessing data and controlling equipment remotely can improve efficiency and reduce the need for on-site personnel.

5. Sustainable Applications in Practice:

• Smart Agriculture: Monitoring soil conditions and automating irrigation to conserve water and energy.
• Environmental Monitoring: Collecting data on air and water quality to track pollution levels and manage natural resources.
• Smart Buildings: Optimizing energy consumption in buildings by monitoring and controlling HVAC systems.
• Renewable Energy: Monitoring the performance of solar panels or wind turbines to ensure efficient energy generation.

In essence, the WISE-4060’s sustainable technology features are applied through:

• Efficient design: Minimizing power consumption and maximizing lifespan.
• Wireless communication: Reducing material use and enabling flexible deployment.
• Integration with automation systems: Optimizing processes and resource utilization.
• Deployment in various sustainable applications: Contributing to environmental monitoring, resource management, and energy efficiency.

Case study is Sustainable technology of 4060 ?

Unfortunately, finding detailed, publicly available case studies specifically about the Advantech WISE-4060 and its sustainability impact can be challenging. Manufacturers often keep such information close to the vest for competitive reasons.

However, I can provide you with a hypothetical case study based on the WISE-4060’s capabilities and typical applications where sustainability is a key factor:

Case Study: Smart Irrigation with WISE-4060

Challenge: A large agricultural farm in a water-stressed region needed to optimize its irrigation practices to conserve water and reduce energy costs. Traditional flood irrigation methods were wasteful, and manual monitoring was labor-intensive and inefficient.

Solution: The farm implemented a smart irrigation system using Advantech WISE-4060 modules. These modules were deployed throughout the fields, connected to soil moisture sensors, and integrated with the farm’s existing Wi-Fi network.

How WISE-4060 Contributed to Sustainability:

• Precise Irrigation: The WISE-4060s collected real-time data on soil moisture levels, allowing the system to deliver water only when and where it was needed. This significantly reduced water waste compared to traditional methods.
• Automated Control: The WISE-4060s controlled the irrigation pumps and valves, automating the entire process. This eliminated the need for manual labor and ensured that irrigation was carried out efficiently.
• Reduced Energy Consumption: By optimizing irrigation schedules and avoiding overwatering, the system reduced the energy required to pump water.
• Remote Monitoring and Control: The farm manager could access real-time data and control the irrigation system remotely via a web dashboard. This allowed for better management of resources and quick responses to changing conditions.

Results:

• Water Savings: The smart irrigation system reduced water consumption by an estimated 30% compared to previous methods.
• Energy Savings: The optimized irrigation schedules led to a 15% reduction in energy costs associated with pumping water.
• Increased Efficiency: The automated system freed up farm workers for other tasks and improved the overall efficiency of irrigation operations.
• Improved Crop Yields: By providing the right amount of water at the right time, the system contributed to healthier crops and potentially higher yields.

Conclusion:

This hypothetical case study demonstrates how the Advantech WISE-4060 can be used to create sustainable solutions in agriculture. By enabling precise irrigation, automated control, and remote monitoring, the WISE-4060 helps conserve water, reduce energy consumption, and improve overall efficiency. While this is a fictional example, it highlights the potential of the WISE-4060 to contribute to sustainability in real-world applications.

To find real case studies:

• Check Advantech’s website: Look for case studies or success stories on their website, particularly in the “Resources” or “Support” sections.
• Contact Advantech directly: Reach out to their sales or support team and inquire about specific case studies related to the WISE-4060 and its sustainability impact.
• Search industry publications: Look for articles or reports in industry publications that might feature applications of the WISE-4060 in sustainable projects.

Remember that even if you don’t find a case study specifically about the WISE-4060, you can often find examples of similar applications using other devices that highlight the benefits of sustainable technology in various industries.

COURTESY : Bernard Marr

White paper on Sustainable technology of 4060 ?

I can’t directly provide you with a specific, official white paper on the Advantech WISE-4060 and its sustainability aspects. White papers are typically produced by the manufacturer (Advantech in this case) and aren’t always freely and publicly available.

However, I can guide you on how to find such information and give you the structure and content you’d likely find in a white paper on this topic:

How to Find Information:

1. Advantech’s Website: The most likely place to find this information is on Advantech’s official website. Look for:
   • Product Pages: Check the WISE-4060’s product page for any downloadable documents, specifications, or application notes.
   • Resources/Downloads Section: Many manufacturers have a dedicated section for white papers, case studies, and other technical documentation.
   • Contact Sales/Support: If you can’t find it online, contact Advantech’s sales or technical support team directly. They may be able to provide you with the document or point you in the right direction.
2. Industry Publications: Search for articles, reports, or white papers in relevant industry publications that cover industrial automation, IoT, or sustainability in related fields. These might feature the WISE-4060 or similar technologies.
3. General Web Search: Use specific keywords in your web searches, such as “Advantech WISE-4060 sustainability white paper,” “WISE-4060 energy efficiency,” or “WISE-4060 sustainable applications.”

Structure and Content of a Typical White Paper on this Topic:

A white paper on the WISE-4060 and its sustainability would likely cover these points:

• Introduction: Briefly introduce the WISE-4060 and its core functionalities. It would then establish the context of sustainability in industrial automation and IoT.
• WISE-4060 Features and Benefits: Detail the key features of the WISE-4060 that contribute to sustainability, such as:
  • Low power consumption and its impact on energy savings.
  • Durable design and extended lifespan, reducing waste.
  • Wireless communication and its benefits for resource efficiency.
  • Enabling industrial automation and its role in process optimization.
• Sustainability Impact: Discuss the quantifiable benefits of using the WISE-4060 in terms of:
  • Reduced energy consumption and carbon footprint.
  • Minimized waste and resource usage.
  • Improved efficiency and productivity.
  • Contribution to specific sustainability goals (e.g., UN Sustainable Development Goals).
• Applications and Case Studies (if available): Provide real-world examples of how the WISE-4060 has been used in sustainable projects, showcasing its impact in various industries. Even hypothetical examples can be illustrative.
• Comparison with Alternatives: Briefly compare the WISE-4060 with other similar products, highlighting its advantages in terms of sustainability.
• Conclusion: Summarize the key takeaways and emphasize the WISE-4060’s role in enabling sustainable solutions in industrial automation and IoT.
• Call to Action: Encourage readers to learn more about the WISE-4060 and consider it for their sustainable technology initiatives.

Remember that even if you can’t find a dedicated white paper, the information outlined above can be found in various combinations across the resources I mentioned. Focus your search on the key aspects of the WISE-4060’s sustainability: low power, durability, wireless communication, and its role in enabling automation.

Industrial application of Sustainable technology of 4060 ?

You’re interested in how the Advantech WISE-4060 can be used in industrial settings while keeping sustainability in mind. Here are some key applications:

1. Predictive Maintenance:

• Challenge: Unexpected equipment breakdowns can lead to production downtime, wasted resources, and increased costs.
• Solution: The WISE-4060 can be used to monitor the performance of critical equipment (e.g., motors, pumps, compressors) by collecting data from sensors. This data can be analyzed to predict potential failures before they occur.
• Sustainability Benefit: Predictive maintenance reduces downtime, optimizes equipment lifespan, and minimizes waste by preventing catastrophic failures and extending the life of existing assets.

2. Energy Monitoring and Optimization:

• Challenge: Industrial facilities often consume large amounts of energy, leading to high costs and environmental impact.
• Solution: WISE-4060 modules can be deployed to monitor energy consumption in various areas of the facility (e.g., lighting, HVAC, machinery). This data can be used to identify areas for improvement and optimize energy usage.
• Sustainability Benefit: By reducing energy consumption, industries can lower their operating costs and decrease their carbon footprint.

3. Resource Management:

• Challenge: Efficiently managing resources like water and raw materials is crucial for both cost savings and environmental protection.
• Solution: The WISE-4060 can be integrated with sensors to monitor resource usage in real-time. For example, it can be used to track water flow in pipes, monitor material levels in tanks, or measure waste generation.
• Sustainability Benefit: Real-time monitoring allows for better control over resource usage, reducing waste and promoting more sustainable practices.

4. Environmental Monitoring:

• Challenge: Industries need to monitor their environmental impact, including air and water quality, to comply with regulations and ensure responsible operations.
• Solution: WISE-4060 modules can be deployed to collect data from environmental sensors, such as those that measure air pollution, water contamination, or noise levels.
• Sustainability Benefit: By monitoring environmental conditions, industries can identify potential problems early on and take corrective actions to minimize their impact.

5. Smart Factories:

• Challenge: Traditional manufacturing processes can be inefficient and resource-intensive.
• Solution: The WISE-4060 can be a key component in building smart factories, where various devices and systems are connected to collect and exchange data. This data can be used to optimize production processes, improve efficiency, and reduce waste.
• Sustainability Benefit: Smart factories enable more sustainable manufacturing practices by optimizing resource use, reducing energy consumption, and minimizing environmental impact.

Key Considerations for Industrial Applications:

• Reliability: Industrial environments often have harsh conditions, so the WISE-4060’s robust design and industrial-grade components are essential for reliable operation.
• Connectivity: The WISE-4060’s wireless capabilities allow for flexible deployment and easy integration with existing networks.
• Scalability: Industrial facilities often require large-scale deployments, so the WISE-4060’s features should support easy scalability.
• Security: Data security is crucial in industrial settings, so the WISE-4060 should have appropriate security measures in place.

By leveraging the WISE-4060’s sustainable technology features, industries can improve efficiency, reduce costs, and minimize their environmental impact.

Research and development of Sustainable technology of 4060 ?

While specific research and development details about the Advantech WISE-4060’s sustainability features might not be publicly available, I can outline the general areas where R&D efforts likely focus:

1. Enhancing Energy Efficiency:

• Component Optimization: Research into more energy-efficient components (e.g., microcontrollers, sensors, communication chips) to further reduce power consumption.
• Power Management Algorithms: Developing advanced power management algorithms to dynamically adjust power usage based on the device’s operational state, minimizing energy waste.
• Low-Power Communication Protocols: Exploring and implementing communication protocols that minimize energy consumption during data transmission.

2. Extending Product Lifespan:

• Material Science: Researching and testing new materials for the device enclosure and components to improve durability and resistance to harsh environments.
• Failure Analysis: Conducting thorough failure analysis to identify common failure points and improve the design to prevent future issues, extending the product’s lifespan.
• Firmware Updates: Continuously improving firmware to optimize performance, address bugs, and potentially extend the device’s functionality over time, maximizing its useful life.

3. Improving Wireless Communication:

• Network Optimization: Researching and implementing techniques to optimize wireless communication in industrial environments, ensuring reliable and efficient data transmission with minimal energy usage.
• Security Enhancements: Developing and integrating robust security features to protect data transmitted wirelessly, addressing potential vulnerabilities and ensuring data integrity.
• Interoperability: Ensuring compatibility with a wide range of wireless communication standards and protocols to facilitate seamless integration with existing industrial networks.

4. Advancing Industrial Automation Capabilities:

• Data Analytics: Developing advanced data analytics capabilities to process data collected by the WISE-4060, enabling predictive maintenance, process optimization, and resource management.
• Edge Computing: Integrating edge computing capabilities to process data locally, reducing the need to transmit large amounts of data to the cloud and improving response times.
• AI Integration: Exploring the integration of artificial intelligence (AI) and machine learning (ML) algorithms to enable more intelligent automation and decision-making.

5. Sustainable Manufacturing and Supply Chain:

• Green Design: Implementing design principles that minimize the environmental impact of manufacturing processes, including material selection, energy usage, and waste generation.
• Sustainable Sourcing: Working with suppliers who adhere to sustainable practices and prioritize environmental responsibility.
• Lifecycle Assessment: Conducting lifecycle assessments to evaluate the environmental impact of the WISE-4060 throughout its entire lifecycle, from manufacturing to end-of-life disposal.

General R&D Considerations:

• Cost-Effectiveness: Balancing sustainability goals with cost considerations to ensure that the WISE-4060 remains a competitive and accessible solution.
• Industry Standards: Adhering to relevant industry standards and certifications to ensure product quality, safety, and interoperability.
• Customer Feedback: Incorporating customer feedback into the R&D process to ensure that the WISE-4060 meets the needs of its users and contributes to their sustainability goals.

By focusing on these areas of research and development, Advantech can continue to improve the sustainability performance of the WISE-4060 and contribute to a more environmentally responsible industrial sector.

COURTESY : SUSTAINABLE TECHNOLOGY SOLUTIONS

References

1. ^ “about”. www.csus.edu. Retrieved 2016-04-04.
2. ^ “about”. www.csus.edu. Retrieved 2016-04-04.
3. ^ “A Multi-Trophic Sustainable Food Production System Integrating Aquaponics and Bio-Waste Recycling| Research Project Database | NCER | ORD | US EPA”. cfpub.epa.gov. Retrieved 2016-05-08.
4. ^ “Epicure Catering at Sacramento State”. www.dining.csus.edu. Retrieved 2016-05-08.
5. ^ “Dining Commons”. www.dining.csus.edu. Retrieved 2016-05-08.
6. ^ “A Multi-Trophic Sustainable Food Production System Integrating Aquaponics and Bio-Waste Recycling”. cfpub.epa.gov. Retrieved 2016-05-31.
7. ^ “A Multi-Trophic Sustainable Food Production System Integrating Aquaponics and Bio-Waste Recycling| Research Project Database | NCER | ORD | US EPA”. cfpub.epa.gov. Retrieved 2016-05-08.
8. ^ “aquaponics”. www.csus.edu. Retrieved 2016-04-04.
9. ^ “Sac State Continues Tradition of a Green Campus” (Press release).
10. ^ Biodiesel Benefits and Considerations
11. ^ Environmental, economic, and energetic costs and benefits of biodiesel and ethanol biofuels
12. ^ Jump up to:^a b Comparison of the performance and emissions of different biodiesel blends against petroleum diesel
13. ^ Vermiculture, STORC
14. ^ “CORNELL Composting – Compost Microorganisms”. compost.css.cornell.edu. Retrieved 2016-05-09.
15. ^ “How Composting Works”. HowStuffWorks. 2001-04-02. Retrieved 2016-05-09.
16. ^ Moyle, Peter (2002). Inland Fishes of California. Berkeley: University of California Press.
17. ^ Miller, Chris (2011). “Preliminary Report on Feed Trials of Sacramento Perch” (PDF). Fisheries Science.
18. ^ Tilman, David; Balzer, Christian; Hill, Jason; Befort, Belinda L. (2011-12-13). “Global food demand and the sustainable intensification of agriculture”. Proceedings of the National Academy of Sciences. 108 (50): 20260–20264. doi:10.1073/pnas.1116437108. ISSN 0027-8424. PMC 3250154. PMID 22106295.