The Great Pacific Garbage Patch is the largest accumulation of ocean plastic in the world and is located between Hawaii and California. Scientists of The Ocean Cleanup have conducted the most extensive analysis ever of this area.
The Great Pacific Garbage Patch (GPGP) is the largest of the five offshore plastic accumulation zones in the world’s oceans. It is located halfway between Hawaii and California.
It is estimated that 1.15 to 2.41 million tonnes of plastic are entering the ocean each year from rivers. More than half of this plastic is less dense than the water, meaning that it will not sink once it encounters the sea.
The stronger, more buoyant plastics show resiliency in the marine environment, allowing them to be transported over extended distances. They persist at the sea surface as they make their way offshore, transported by converging currents and finally accumulating in the patch.
Once these plastics enter the gyre, they are unlikely to leave the area until they degrade into smaller microplastics under the effects of sun, waves and marine life. As more and more plastics are discarded into the environment, microplastic concentration in the Great Pacific Garbage Patch will only continue to increase.
ESTIMATION OF SIZE
To formulate this number, the team of scientists behind this research conducted the most elaborate sampling method ever coordinated.
This consisted of a fleet of 30 boats, 652 surface nets and two flights over the patch to gather aerial imagery of the debris.
Sampling at different locations within the same time period allowed a more accurate estimate of the size of the patch and the plastic drifting in it.
Due to seasonal and interannual variabilities of winds and currents, the GPGP’s location and shape are constantly changing. Only floating objects that are predominantly influenced by currents and less by winds were likely to remain within the patch.
By simulating concentration levels in the North Pacific, the researchers were able to follow the location of the patch, demonstrating significant seasonal and interannual variations. On average the patch orbits around 32°N and 145°W. However, the team observed seasonal shift from west to east and substantial variations in latitude (North to South) depending on the year.
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The mass of the plastic in the Great Pacific Garbage Patch (GPGP) was estimated to be approximately 80,000 tonnes, which is 4-16 times more than previous calculations. This weight is also equivalent to that of 500 Jumbo Jets.
The center of the GPGP has the highest density and the further boundaries are the least dense. When quantifying the mass of the GPGP, the team chose to account only for the denser center area. If the less-dense outer region was also considered in the total estimate, the total mass would then be closer to 100,000 tonnes.
Using a similar approach as they did when figuring the mass, the team chose to employ conservative estimations of the plastic count. While 1.8 trillion is a mid-range value for the total count, their calculations estimated that it may be range from 1.1 to up to 3.6 trillion pieces.
Using data from multiple reconnaissance missions, a mass concentration model was produced to visualize the plastic distribution in the patch.
The mass concentration model, pictured below, shows how the concentration levels gradually decrease by orders of magnitude towards the outside boundaries of the GPGP. The center concentration levels contain the highest density, reaching 100s of kg/km² while decreasing down to 10 kg/km² in the outermost region.
These results prove that plastic pollution at sea, while densely distributed within the patch, is scattered and does not form a solid mass, thus demystifying the trash island concept.
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The Ocean Cleanup measured the vertical distribution of plastic during six expeditions between 2013 to 2015. Results from these expeditions proved that the buoyant plastic mass is distributed within the top few meters of the ocean.,
Factors such as wind speed, sea state, and plastic buoyancy will influence vertical mixing. However, buoyant plastic will eventually float back to the surface in calmer seas. Larger pieces were observed to resurface much more rapidly than smaller pieces.
Characteristics of the debris in the Great Pacific Garbage Patch, such as plastic type and age, prove that plastic has the capacity to persist in this region.
Plastic in the patch has also been measured since the 1970’s and the calculations from subsequent years show that microplastic mass concentration is increasing exponentially – proving that the input of plastic in the patch is greater than the output. Unless sources are mitigated, this number will continue to rise.
The vast majority of plastics retrieved were made of rigid or hard polyethylene (PE) or polypropylene (PP), or derelict fishing gear (nets and ropes particularly). Ranging in size from small fragments to larger objects and meter-sized fishing nets.
Plastic within the patch was categorized into four size classes:
– Microplastics (0.05 – 0.5 cm)
– Mesoplastics (0.5 – 5 cm)
– Macroplastics (5 – 50 cm)
– Megaplastics (anything above 50 cm)
When accounting for the total mass, 92% of the debris found in the patch consists of objects larger than 0.5 cm, and three-quarters of the total mass is made of macro- and mega plastic. However, in terms of object count, 94% of the total is represented by microplastics.
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Once the plastics were collected, a team of volunteers classified the plastic into:
– Type H: Hard plastic, plastic sheet or film;
– Type N: Plastic lines, ropes, and fishing nets;
– Type P: Pre-production plastics (cylinders, spheres or disks);
– Type F: Fragments made of foamed materials
These plastic types were then screened for clues on age and origin. This was performed by examining each object for dates, languages, trademarks, symbols or ‘made in’ statements.
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Because the plastics have been shown to persist in this region, they will likely break down into smaller plastics while floating in the GPGP.
This deterioration into microplastics is usually the result of sun exposure, waves, marine life, and temperature changes. Microplastics have been discovered floating within the water surface layers, but also in the water column or as far down as the ocean floor.
Once they become this small, microplastics are very difficult to remove and are often mistaken for food by marine animals.
Not only does plastic pollution in the Great Pacific Garbage Patch pose risks for the safety and health of marine animals, but there are health and economic implications for humans as well.
Impact on wildlife
Plastic has increasingly become a ubiquitous substance in the ocean. Due to its size and color, animals confuse the plastic for food, causing malnutrition; it poses entanglement risks and threatens their overall behavior, health, and existence.
Toxic for Sea Surface Feeders
Floating at the surface of the Great Pacific Garbage Patch (GPGP) is 180x more plastic than marine life. Animals migrating through or inhabiting this area are then likely consuming plastic in the patch. For example, sea turtles by-caught in fisheries operating within and around the patch can have up to 74% (by dry weight) of their diets composed of ocean plastics. Laysan albatross chicks from Kure Atoll and Oahu Island have around 45% of their wet mass composed of plastics from surface waters of the GPGP.
Since 84% of this plastic was found to have at least one Persistent Bio-accumulative Toxic Persistent Bio-accumulative Toxic (PBT) chemical, animals consuming this debris are therefore ingesting the chemicals attached to the plastic.
Entanglement of Marine Life
Fishing nets account for 46% of the mass in the GPGP and they can be dangerous for animals who swim or collide into them and cannot extract themselves from the net. Interaction with these discarded nets, also known as ghost nets , often results in the death of the marine life involved.
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Once plastic enters the marine food web, there is a possibility that it will contaminate the human food chain as well. Efforts to clean and eradicate ocean plastic have also caused significant financial burdens.
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Through a process called bioaccumulation, chemicals in plastics will enter the body of the animal feeding on the plastic, and as the feeder becomes prey, the chemicals will pass to the predator – making their way up the food web that includes humans. These chemicals that affected the plastic feeders could then be present within the human as well.
Affects the Economy
According to a study conducted in collaboration with Deloitte, yearly economic costs due to marine plastic are estimated to be between $6-19bn USD. The costs stem from its impact on tourism, fisheries and aquaculture, and (governmental) cleanups. These costs do not include the impact on human health and the marine ecosystem (due to insufficient research available). This means that intercepting plastic in rivers is much more cost-effective than dealing with the consequences downstream. Learn more in our interactive map.
Resulting from several research missions, traveling across and above the GPGP, The Ocean Cleanup team compiled an unprecedented amount of data to better understand the plastic that persists in this region.
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Scientists have been studying this area since the 1970’s – usually by means of dragging a small sampling net through the debris. This method showed a bias towards smaller objects and did not provide much insight into the larger pieces, and, thus, the entire scope of the GPGP.
Over the course of three years, researchers at The Ocean Cleanup went on several data collection missions. This included the Multi-Level-Trawl expedition, where they analyzed the depth at which buoyant plastic debris may be vertically distributed; the Mega Expedition using vessels to cross the patch with many trawls at once; and the Aerial Expedition which involved the use of a plane flying at low altitude to observe the debris from above.
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Realizing that previous methods of analyzing the plastic in the patch needed improvement, The Ocean Cleanup designed a new research tool, called the multi-level-trawl, which allowed measurements of 11 water layers simultaneously going as far down as 5 meters below surface level. This trawl was then used in the Vertical Distribution Research.
The multi-level-trawl allowed the team to study further down into the water and understand to which depths buoyant plastic may be distributed. Through these studies, it was observed that buoyant plastic floats primarily in the first few meters of the water.
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In 2015, 30 vessels and 652 surface nets, in parallel, crossed the GPGP as part of the Mega Expedition.
Numerous vessel owners offered the use of their ships for the mission. Of those ships, many carried behind them a Manta-trawl; including one mothership, the 171ft long Ocean Starr, which was able to carry two 6-meter-wide trawls and a survey balloon.
The fleet returned with over 1.2 million plastic samples that rendered an unprecedented amount of plastic measurements from the three months of study. Scientists present on the expedition noted that there was an alarming amount of plastic floating in the patch, and their preliminary findings indicated that there were more large objects than originally expected.
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After the Mega Expedition, the team wanted to learn more about these large plastic pieces that were difficult to come by. Megaplastics are more scattered than the smaller plastics, and, to study this important aspect of the patch, the team needed to cover an even larger area.
Using a C-130 Hercules aircraft, The Ocean Cleanup surveyed 311 km² with advanced sensors and an RGB camera (CS-4800i) that captured one photo every second of flight time. They took two flights and came back with over 7,000 single frame mosaics from the mission.
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Once the ocean plastic was brought back to the Netherlands, it then needed to be counted, classified and analyzed.
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The first step in analyzing the plastic was to quantify it – to turn this physical matter into data.
Every piece of plastic that was recovered was cleaned, counted and classified by size and type. In total, 1.2 million plastic samples were counted, one by one, and were used to further study the physical properties and toxicity of the plastic that floats in the GPGP.
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Not only is the size and count of the plastic in the GPGP important to calculate, but the way in which the plastic interacts in the water helps the team learn more about the buoyancy and depths of the plastic.
To test this, various experiments were performed on the plastic in environments that were intended to replicate oceanic conditions and particularly salinity. Laboratory tests were conducted to measure the vertical speed of the plastic as it resurfaces.
It is commonly known that harmful PBT (Persistent Bio-accumulative Toxic) chemicals are found in ocean plastics, so researchers at The Ocean Cleanup tested plastic samples from the expeditions for their chemical levels. Their results helped them to realize what chemicals are present in the patch and what that means for animals feeding there.
Plastics ranging from various type and size were analyzed by placing them in mixtures that would allow the various chemicals to be identified. A process known as Chromatography. They found through various tests that 84% of the plastics in the GPGP contain at least one type of PBT chemical.
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Numerous computational and mathematical processes and methods were used throughout the study of the GPGP, allowing the team to visualize and characterize many features of the patch and the plastic within it.
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When the manta trawls samples were captured and then brought on the vessel, several criteria were noted in the datasheets, including the date, duration, and final coordinates of each tow.
With this information, the team was able to identify the exact location where the plastic was retrieved. The location and duration of all tows were confirmed during a post-processing phase by inspecting all the recorded datasheets against GPS trackers that were installed on all participating vessels. The total distance of tows, for example, combined with the net’s characteristics allowed the researchers to estimate the total surveyed surface.
Aboard the C-130 Hercules aircraft used for the Aerial Expedition were three types of sensors: Lidar (an advanced active sensor that is similar to that used on Google’s autonomous cars), SWIR imager (an infrared camera to detect ocean plastic) and an RGB camera.
There were 3 sensor technicians, 7 navigation personnel and 10 researchers who helped track the plastic from above and monitor the equipment on board.
The data from this expedition were then analyzed and processed resulting in multispectral and geo-referenced imagery that was used to screen the surface area for plastic by trained observers and a machine-learning algorithm, providing spatial distribution of larger debris (>0.5m).
The mass of the plastic debris in the GPGP was calculated using imagery from the Aerial Expedition. By comparing the top view surface against dry mass of multiple objects collected during the first expedition at sea, including ghost nets, the team was able to make these estimations.
The data and imagery gathered from these objectives were eventually used by our team of computational modelers to build various models and computer-generated graphics. These served as a visual representation of the studies and tests that had been performed during the expeditions.
Research of this nature is crucial when understanding the many facets of the GPGP. These models have helped the engineers at The Ocean Cleanup to further improve the design of the cleanup system, which was deployed mid-2018.
We also use modeling to identify the pathways that bring plastic to the gyres. In 2022 our researchers published a new study based on over 6000 plastic objects (over 5 cm in size) captured in the GPGP by our System 001/B cleaning system in 2019. We then compared our field observations with our ‘virtual particle’ modeling results, allowing us to see the most statistically probable sources of GPGP plastic.
This indicated that over 75% of plastics in the GPGP – not only the 46% made up of fishing nets, as we discovered in 2018 – are attributable to offshore fishing activities. More research will be required in order to discover if this also applies to the other garbage patches around the world.