Although laboratories are centres for scientific advancement, they may also be major producers of waste. Labs produce a lot of waste, which either ends up in landfills or needs to be disposed of specifically.
This lab waste ranges from disposable gloves and pipette tips to wasted chemicals and old equipment. This has an adverse effect on the environment in addition to being financially burdensome.
The good news is that you can contribute to more sustainable scientific practices and minimise your lab waste in a number of ways. To get you going, consider these five essential strategies:
1. Plan Your Experiments with Efficiency in Mind: A Powerful Weapon Against Lab Waste
Planning out your research carefully is one of the best strategies to cut down on lab waste. Though some waste cannot be completely eliminated, it can be reduced significantly with careful planning. This entails devoting attention to:
Review existing literature:
Conducting comprehensive literature research is the first step towards designing experiments that are efficient. This not only helps identify places where repetition can be avoided, but it also improves your research by providing it with a foundation of prior findings.
Knowing what has been done before will help you design your experiments to fill in certain knowledge gaps. By removing the need to duplicate processes that have already been conducted elsewhere, this can drastically reduce lab waste.
For instance, there’s no need to duplicate a whole experiment in your lab if a published study has determined the ideal reaction time for a specific enzyme. Alternatively, you may make use of that knowledge and concentrate on experimenting with various substrate concentrations or reaction temperatures.
By using a focused strategy, less chemicals and consumables are utilised, and time and resources are also saved.
Optimize reaction volumes:
A crucial approach to designing effective experiments is making the most of reaction volumes. Many protocols have historically relied on rather large reaction volumes, either as a matter of habit or to guarantee that there is enough material for analysis. This method can, however, produce a lot of lab waste, especially when using pricey or dangerous chemicals.
Fortunately, a wide range of methods and resources enable researchers to reduce lab waste without sacrificing the accuracy of their findings. Miniaturised reaction vessels and microfluidic chips allow researchers to do experiments with much smaller sample sizes.
Additionally, accurate results can be obtained from lower volumes of material because of developments in analytical instrumentation. Labs can significantly lower their waste footprint by adopting these technologies and modifying methods as necessary.
Prepare master mixes:
Preparing buffers or solutions for use in several assays is one of the repeated tasks involved in many studies. These tedious jobs frequently result in the tiny amounts of residual chemicals being created, which adds to the lab waste. Making master mixes, which are ready-made solutions with all the ingredients needed for a particular assay or reaction, is a quick and easy technique to tackle this.
Master mixes provide a number of benefits when it comes to reducing lab waste. Researchers avoid having to repeatedly aliquot different components of the mixture by making a single, big volume of the mixture.
This minimises the quantity of containers utilised and disposed of in addition to saving time. Furthermore, master mixes frequently increase uniformity between tests, reducing the possibility of mistakes that would require repeating the study and producing additional waste.
2. Embrace Reusable Labware Whenever Possible
The routine use of single-use cuvettes, centrifuge tubes, and disposable pipette tips in research facilities adds a great deal of plastic pollution to the environment. While some lab wastes cannot be avoided, a large amount can be reduced by using reusable alternatives. Reusable labware is becoming more popular, which is advantageous for researchers as well as the environment.
Glassware:
Glassware has been a lab mainstay for many years and is still an advocate for reusability. Glassware such as condensers, flasks, and beakers may be cleaned and used repeatedly, which greatly minimises lab waste.
Glassware may initially cost more than throwaway alternatives, but over time, its reusability makes it a more affordable option. Furthermore, glassware has a number of useful benefits.
Glass may be used for a variety of studies since it is chemically resistant to a broad range of chemicals and solvents. Its transparency also makes it simple to see the development of reactions and samples.
But switching to glassware necessitates changing lab procedures. Glassware must be cleaned properly to maintain its integrity and reusability. Labs must make an investment in efficient cleaning agents and instruct researchers in safe cleaning methods.
Furthermore, handling and storage must be done carefully to avoid breaking, which would defeat the environmental advantages of reusability.
Cuvettes:
Although cuvettes are an essential instrument for spectrophotometric analysis, the amount of lab waste produced by disposable plastic cuvettes is substantial. Thankfully, there is a sustainable substitute in the form of reusable quartz cuvettes.
Due to its exceptional chemical resistance and excellent transparency , quartz is perfect for a wide range of light wavelengths. Quartz cuvettes are more expensive initially than throwaway alternatives, but over time, their reusability and durability make them a more affordable option.
For reliable findings, reusable cuvettes need to be cleaned and maintained properly. Cuvette cleaning kits that eliminate impurities without harming the quartz surface should be purchased by labs.
When cuvette holders are used properly, the chance of scratches and breakage is reduced. Reusable cuvettes benefit lab budgets and the environment because of their longer lifespan and decreased waste production.
Cell culture flasks:
Research on cell culture extensively uses single-use plastic flasks. For labs dedicated to sustainability, reusable cell culture flasks provide a good substitute. Most reusable flasks are constructed from premium, medical-grade polymers that are meant to last for several uses. These flasks, like their disposable counterparts, frequently have treated surfaces that encourage cell adhesion and development.
It’s important to give switching to reusable cell culture flasks considerable thought. To avoid contamination and guarantee reliable cell culture results, proper cleaning and sterilisation procedures are crucial. Labs should also account for the possibility of flask deterioration over time. Reusable flasks can cut lab waste considerably, but not all cell culture applications may be a good fit for them.
Nonetheless, there is no denying that reusable cell culture flasks are better for the environment. Labs may drastically lessen their plastic impact by doing away with the requirement for throwaway plastic flasks. Reusability can also result in significant cost savings, particularly for labs with high cell culture output.
3. Implement a Chemical Inventory Management System
Mislabelled containers, forgotten leftovers, and expired reagents all add to the mounting pile of garbage that can be costly to dispose of and bad for the environment. Thankfully, there is an effective solution to address this problem: a strong chemical inventory management system. A method for tracking and controlling chemicals can help labs drastically cut waste and create a safer, more productive work environment.
Regular inventory checks:
Regular inventory inspections are the cornerstone of every successful chemical inventory management system. Researchers can locate possible sources of lab waste and take appropriate action by conducting periodic audits, which can be conducted monthly, quarterly, or even annually depending on the size and activity of the lab.
By identifying expired chemicals that are getting close to their disposal date, these inspections assist ensure that they are properly disposed of before they become unusable. Furthermore, inventory checks may turn up forgotten or little used compounds, which prompts researchers to share them with colleagues or think of other uses to avoid making needless purchases.
Maintaining regulatory compliance also requires routine inventory checks. It is mandatory for several laboratories to keep precise records of the dangerous substances they have on hand. A properly managed inventory system makes it easier to produce reports that show adherence to pertinent laws and regulations.
Prioritize older chemicals:
Adhering to the First-In, First-Out (FIFO) principle is one of the best strategies to eliminate lab waste through inventory management. Using older chemicals before opening fresh containers is the priority with this method. Laboratories can reduce the danger of expiration and eventual waste by dating chemicals upon receipt and making sure older stock is used first.
A well-organized storage system can help with FIFO implementation. Researchers can more quickly identify and prioritise the usage of older chemicals by making sure older stock is stored at the front of shelves and clearly labelling compounds with their purchase date.
Expiration dates can also be included into inventory management software to automatically notify researchers when chemicals are about to expire and encourage them to use them before then.
Purchase chemicals in appropriate quantities:
Having too many chemicals on hand is another big source of lab waste. Large amounts of chemicals are frequently ordered by researchers “just in case” they are required for later investigations. This approach, however, may result in a sizable quantity of chemicals that are never used approaching their expiration date and eventually needing to be disposed of.
When it comes to purchasing chemicals, researchers can make well-informed judgements with the aid of an effective inventory management system. Through real-time data on historical usage trends and stock levels, the system can assist researchers in figuring out how much of each chemical to order.
Furthermore, certain purchasing systems can be integrated with inventory management software, which can automatically generate purchase orders based on pre-established minimum stock levels. This minimises the possibility of lab waste and lowers the risk of overstocking.
4. Explore Repurposing and Sharing Opportunities
The experience is familiar to all researchers – you order a particular chemical for an experiment, employ a small amount of it, and then the project takes a completely different direction. The remaining chemical is left on the shelf, slowly running out of time before it is disposed of as hazardous waste. This situation adds a great deal to lab waste when it is repeated numerous times over in labs. Luckily, there’s a strong way to tackle this problem: looking into chances for sharing and reuse.
Labs may greatly save waste and create a more sustainable research environment by encouraging an inventive culture. This blog post examines several strategies that laboratories might use to reduce waste by repurposing and sharing materials.
Repurpose glassware:
A common sight in many labs, glassware can contribute significantly to waste if it breaks or is thrown out too soon. However, by being creative, researchers may revitalise outdated glassware and drastically cut down on waste. Glassware can be used for the following purposes:
Reduce the size of the containers:
Large flasks can be repurposed by decanting small amounts of leftover solution into smaller ones.
Utilise in non-essential applications:
While slightly damaged beakers or flasks might not be ideal for exact measurements, they can be utilised for other activities such as buffer preparation or stock solution storage.
Be imaginative:
Glass that breaks can be recycled for non-critical uses. For evaporation, for instance, the bottom of a broken flask can be used as a watch glass.
Labs may drastically lower their waste production and increase the equipment’s lifespan by using glassware with creativity.
Donate unused chemicals:
One of the main sources of lab trash is leftover chemicals. This issue may be exacerbated by reagents that are incompatible with ongoing research, chemicals that are almost past their expiration date, or remaining stock from projects that have been abandoned. Thankfully, there are fixes available:
Internal sharing:
The chemicals you don’t need may be needed by several labs in the same department or organisation. Establish an internal sharing scheme for unwanted chemicals to keep them out of the hazardous waste stream.
Programmes for external donations:
A number of businesses focus on gathering and giving away leftover chemicals to other research facilities. These initiatives offer an ethical and safe means of donating unneeded chemicals and guarantee their proper disposal.
Giving away surplus chemicals helps the scientific community collaborate and share resources while also reducing lab waste.
Share equipment:
For labs, purchasing scientific equipment can be highly expensive. But when underutilised equipment eventually needs to be disposed of, it often hangs about doing nothing, consuming valuable space and adding to the trash. Sharing equipment can be used in a number of ways to cut down on lab waste:
Distribute this throughout your department:
Work together to share equipment with coworkers. While reducing redundancy, a shared timetable can guarantee that everyone has access to the tools they require.
Examine the main facilities:
High-end devices are installed at core facilities of many universities and research institutions. By using these basic facilities for specialised approaches, individual labs may be able to avoid purchasing and maintaining costly equipment that may not be utilised very often.
Web-based platforms:
Researchers who want to exchange equipment can connect through a number of internet sites. These platforms can help universities collaborate and share resources, maximising equipment use and reducing waste.
Labs can avoid waste, maximise budget allocation, and encourage interdisciplinary research collaboration by encouraging equipment sharing.
5. Advocate for Sustainable Practices in Your Lab
Encourage a sustainable culture in your lab to cut down on waste. This can be accomplished by:
Raising awareness:
The first step towards reducing lab waste is raising awareness amongst researchers and lab personnel. Here are some ways to raise awareness within your lab:
Organize workshops and training sessions:
Invite experts to conduct workshops on sustainable lab practices. These sessions can educate researchers on waste reduction strategies, proper waste disposal procedures, and the environmental impact of different lab practices.
Share resources:
Circulate articles, blog posts, and infographics highlighting the importance of lab sustainability. Promote online resources and databases dedicated to sustainable lab practices.
Host discussions:
Organize lab meetings or brown bag lunches focused on lab sustainability. Encourage open discussions about challenges faced and potential solutions for waste reduction.
Leading by example
Promoting sustainable practices is a big part of the job description for lab leaders. Principal investigators and lab managers can set an example in the following ways:
Put into practice sustainable protocols:
Include waste minimization techniques in routine laboratory procedures. Urge researchers to give priority to methods and approaches that reduce the production of garbage.
Purchase reusable substitutes:
When possible, allocate funds from your budget to buy reusable tools and equipment. Show your dedication to sustainability by taking practical steps.
Encourage ingenuity:
Acknowledge and honour scientists who proactively look for ways to reuse and exchange materials in the laboratory. Encourage the development of an inventive and conscientious waste management culture.