According to the Washington Post, pollution around the globe now contributes to an estimated 9 million deaths annually — or roughly one in six people.

With sprawling population growth comes more industrial-based jobs resulting in massive increases in pollution. Combine swelling population growth and pollution with more severe droughts, floods, and storms and it becomes clear that finding a solution to climate change is of the utmost importance.

So how do we protect our only planet? One way is by collecting environmental data to understand our physical world, and then using it to influence policy, draw attention to local and national issues, and pursue pathways to solving this global crisis.

Environmental monitoring is the collection of measurements from the physical world that determine the status and trends of environmental conditions. It is critical to the protection of human health, environmental sustainability, and policy development. 

“Environmental monitoring, maybe better called human ecosystem monitoring, is about tracking data points related to core human health, and ensures access to resources vital to our ability to live and thrive.

Further, it’s as much about preserving human health and reducing organizational financial liabilities as it is about resource conservation. If that helps people better understand the value, than so be it.”

Bonny Bentzin, Deputy Chief Sustainability Officer, UCLA

Environmental monitoring data is being used to:

  • Influence sustainable policy development
  • Inform where improvements can be made for policy makers
  • Set benchmarks for geopolitical cooperation to address the Sustainable Development Goals
  • Provide ways for businesses and organizations to save money while contributing to a greener planet at the same time.

Environmental Monitoring Today 

Environmental monitoring efforts around the world are disparate, and inconsistent at best.

Very few countries in Europe and Central Asia are able to maintain monitoring systems. Even then, the lack of consistent data is oftentimes difficult to overcome. 

A person testing the water quality of a stream

Why Is Traditional Environmental Monitoring So Difficult? 

As a former environmental consultant, I can attest that the current process of collecting environmental data can be extremely difficult. Why? A number of factors including:

  • Time-consuming sampling: There are sampling locations designated by an environmental management plan for when a storm sweeps across a region. As an environmental consultant, sampling these locations and then recommending how best to reduce pollution is your job. For example, there can be up to 5 sampling locations on a construction site. Last year alone, the Department of Buildings in New York gave out 168,233 construction permits. Let’s do some quick math. Assuming each construction site has 5 sampling locations, thats is 841,165 samplings done per rain event.
  • Red tape: As storms are becoming more frequent and severe, an environmental consultant can spend almost their entire work week in the field. By the time they get back to the office, the amount of paperwork is profound, and in a moments notice, another rain event is rolling through and the consultants are back in the field.
  • Cost: The tools required for environmental monitoring can be very expensive. For water quality sampling, one portable turbidity meter can cost anywhere from $400.00 – $1,300.00. Imagine if an area required sampling in five different locations that must be sampled before, during, and after. An organization would have to pay for the consultant’s time with the cost of the sampling materials factored in as they have to be on site for the entire duration of the storm.

Taking Environmental Monitoring to the Future with the Internet of Things

As the Fourth Industrial Revolution is set in motion, environmental monitoring with new technologies like the Internet of Things (IoT) can help to protect our natural resources like we have never seen before.

IoT can be the inner workings behind a healthy society that has a bountiful of clean air, water, and an abundant amount of fresh food without expensing the environment. Why? Because internet-connected sensor solutions can provide:

  • Real-time insights
  • Predictability via machine learning 
  • SMS/text alerts 
  • Actuator functions
  • Data Sharing
  • And more…

Mesh Networking & the Internet of Things

illustration of a mesh network
Image via Wikipedia

Creating a mesh network – which is an infrastructure of nodes (machines/sensors) that are wirelessly connected to each other – is one way that IoT can overcome traditional environmental monitoring practices.

These “nodes” or sensors can be spread out in a given area to collect data. The data is then shared as the sensors piggyback off one another other to extend a radio signal on a network to relay information to a central hub.

By installing a mesh network of environmental monitoring sensors, continuous and periodic data collection and recordings can be made available to stakeholders – be it to management, public authorities, and the general public. 

Imagine if your city had air quality sensors hidden in the infrastructure that constantly pulled data about the air you breathe. If a carcinogen was released on the outskirts of your city by accident, you could get an alert telling you that the current air quality is dangerous, and to “please stay inside”.

Traditionally speaking, it would take time for an environmental consultant arrive in this area, take measurements, and recommend the best way to mitigate the source of pollution.

But with a mesh network, the data would become immediate, helping the environmental consultant make quicker recommendations. As a result, citizens would be aware of their surroundings, and city leaders would be able to make evidence-based decisions ASAP.

Environmental Monitoring Data and Local Government

Government building

If environmental monitoring data was made available to the public, private citizens and community groups would be able to bring up problems like air quality concerns to local government officials and push for new legislative policies to protect their communities.

The local government could even combine this data with geographical information systems (GIS) to better understand a affected region and push through new compliance regulations.

In short, the more the environmental monitoring data is made available, the better equipped we are to advocate and enact policies that can dramatically improve our quality of life.

Can Environmental Monitoring Be Affordable?

Ten years ago, environmental sensing hardware could cost well into the thousands of dollars for a single monitoring device.

Today, environmental monitoring hardware and software is now more affordable than ever before and can be integrated with a light touch.

There are hundreds of hardware manufacturers that are producing utility grade sensors with great accuracy at a low cost and ruggedizing hardware has become much easier thanks to new technologies like 3D printing.

iPad with Kosmos
The Kosmos IoT System makes it easy to deploy environmental monitoring applications everywhere.

Environmental monitoring software is also evolving such that you no longer need an IT employee to install a software program. As the culture of IoT software shifts to become more democratic thanks to things like machine-generated and low-code software options, everyone can learn about their physical environmental in real-time in any part of the world.

It’s a beautiful thing when we can learn and share our knowledge with one another.

IoT Systems for Environmental Monitoring of our Physical World

Air Pollution Street Art

Air Quality Monitoring 

Air pollution is deteriorating both the human and environmental health of the planet.

In fact, according to the World Health Organization, an estimated 4.6 million people die each year from causes directly attributable to air pollution. 

An estimated 4.6 million people die each year from causes directly attributable to air pollution.

-World health organization

Not to mention that air pollutants in the form of acid rain are permanently damaging some of the world’s most beloved cultural heritage sites such as the Taj Mahal, the Colosseum, the Leshan Buddha, and the Arch of Hadrian. 

So where do these air pollutants come from?

Mostly from emissions from oil and gas combustion processes in the form of nitrogen oxides and particulate matter, as well as sulphur from vehicles, commercial maritime vessels, utilities, and waste disposal.

Air quality monitor illustration

IoT Air Pollution Solution:

Air pollutant concentration is heavily affected by wind and topography. Having a mesh network of interconnected sensors that read temperature, humidity, nitrogen oxides, particulate matter, sulphur, and wind speed would be ideal for monitoring air quality. The data could pinpoint the source of pollution or areas greatly impacted by pollution.

Water Monitoring

 Protester wearing a shirt that reads> "Don't Poison OUR Water!"

Protecting water resources – be it freshwater, groundwater, rainwater, ocean water, recycled water, or brackish water – continuously ranks in the top 10 environmental risk factors in the World Economic Forum’s Global Risk Report for the past 6 years.

Why? Because water has an intrinsic environmental and socio-economic value, and without it, we die. 

Collecting and sharing water data is critical to our survival. From a geopolitical perspective, countries are fighting over depleting transboundary freshwater resources.

Take Syria for example. Millions of people have fled their homes due to a depleting water system exacerbated by transboundary political issues.

From an environmental perspective, coral reef bleaching is decimating oceanic ecosystems and plummeting fisheries around the world.

Imagine if we were able to collect ocean and freshwater data in real-time and share it with stakeholders. We could make evidence-based decisions to protect our waterways that would extend beyond the local community to protect people downstream.

Water monitoring illustration

IoT Water Pollution Solution:

Water quality monitoring parameters are fairly common but the thresholds are different depending on which standards are used.

These parameters can include dissolved oxygen, pH, salinity, turbidity, conductivity, biological contaminants, sulphate, phosphate, etc. 

For example, if a city had a network of water quality sensors embedded into their waterways, CSO outflow points, and intertidal zones, water conditions would be available in real-time. Stakeholders would know the current status of their conditions at all times. The sensor data would also  give insight into how the water systems are reacting to current weather conditions and inform better management practices.

Soil Monitoring 

Aquaponic garden

Seventy percent of the world’s freshwater resources are used by agriculture.

But wait, we have a growing population and we have to feed all these people! How do we do it? Well, we need to farm more efficiently. 

Traditional methods of watering crop fields are incredibly wasteful.

“An astonishing 60 percent of the water diverted or pumped for irrigation is wasted—via runoff into waterways or evapotranspiration.”

The UN Food and Agriculture Organization

The runoff then flows down the river and enters oceans causing eutrophication and fish kills in communities whose livelihoods depend on the ocean.

Ever heard of climate change refugees? They are real people who are leaving their homes due to rising sea levels, fish kills, and overfishing. 

Illustration of the sun shining on crops

IoT and Soil Moisture Solution:

The best way to stop this collateral damage is to address the root of the problem with soil moisture monitoring. I have a soil moisture sensor from NCD sitting on my desk right now, and it is not only incredibly durable and accurate, but the price point is low, and the sensor will last for 5-7 years.

More importantly, if these low cost sensors were implemented on farms, farmers would be able to tell which areas on their land are dry, the pH, levels of the crops, and which areas are oversaturated with water.

The farmer could then choose when and how to water their crops. Not only does this IoT solution save money by reducing water usage, it also aids in reducing soil erosion and eutrophication down stream.

Taking Environmental Monitoring to the Next Level with IoT

Kosmos IoT System on a computer, ipad, and phone

Environmental monitoring with IoT enables a reliable and continuous assessment of the environment’s current condition, its trends, and predictability.

As the world is understanding the importance of data, environmental monitoring can positively influence regional, continental, and global discussions on how to scale environmental protection policies.

It is one of the quickest, most affordable ways we can understand and share data about our current conditions, and where we can make improvements. The payoff? Protecting our lives and our assets.

If you are working on an environmental monitoring solution at a non-profit or government agency, we want to help. We offer special programs and discounts for using Temboo’s Kosmos IoT System for environmental monitoring applications that contribute to sustainability, legislation changes, or community improvement.

For more information, contact us at hey@temboo.com.

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Posted by:Briana Garcia, Product Outreach

Briana is on the Product Outreach team at Temboo. She helps industries harness the power of IoT to obtain a greater data insight into their system - be it to enhance their resource management, improve their operational efficiency, or find new areas of growth. She is personally passionate about connecting the human-made world with the natural environment with IoT to create real, long-term sustainability with regards to water quality, energy usage, and circular economy.