Gaia Water Ltd. was recently presented with Best Company for the category of “Filtration System” at Canada’s largest cannabis business conference and expo, GROW UP conference.  Gaia’s patented nanobubble technology enhances plant growth and health by utilization of oxygen and or carbon dioxide. For more information, contact a Gaia associate.

As mentioned in a previous post, freshwater environments across the globe continue to be threatened by the intrusion of brackish and salt-water for a variety of reasons. Resulting in naturally occurring groundwater and other freshwater reservoirs at risk particularly for agriculture.  Brackish/salinated water results in plant stress for producers.  The instability created by this ecosystem change is a major concern in global food security.   

Gaia, a global leader in the ultrafine/nanobubble technology arena has jointly been collaborating within the BioResource & Agricultural Engineering (BRAE) Department at California Polytechnic University (CalPoly), since 2017 to create a solution to this rising problem.

Department Head Dr. Peter Livingston, P.E., and Sara Kuwahara, Ph.D., of Cal Poly’s BRAE Department have been researching the effects of ultrafine/nanobubble oxygenated water and the effects on strawberries in varying saline concentrations and growth media. 

Results from the ongoing two-year study were presented recently on October 23, 2020 to the Agricultural Research Institute (ARI) during the virtual meeting.  (ARI comprises of colleges of agriculture and allied disciplines on four California State Universities for the intent of research for sustainable agriculture for the State of California.) To view more media about this study click here.


Dr. Livingston’s Zoom presentation can be viewed below or by clicking here. 

For more information on ARI, visit Cal State.

Vard Aqua Chile and GAIA have entered into an Authorized Integrator Agreement which allows Vard to distribute, install, and provide technical support for the implementation of GAIA ultra-fine nanobubble generation technology into systems for Chilean Aquaculture.

Gaia Water Ultra-fine Nanobubble Generator implemented in Vard Aqua Chile Farms.

GAIA’s ultra-fine nanobubble generators increase dissolved oxygen in seawater fish farms. The ultra-fine nanobubbles contribute to more efficient and sustainable aquaculture operations. As Jorge Flores of Vard Aqua Chile said, “The Technology is already patent pending and widely distributed in Canada, which makes this task much easier for us with our local clients.”


Read more on GAIA’s developments with Vard Aqua Chile here.

Companies looking for fine and ultrafine bubble technology, commonly referred to as nanobubble technology, to integrate into their systems have many vendors from which to choose.  The methodology used to produce these invisible bubbles, varies widely within the industry. One highly respected company in the bubble marketplace is IDEC Corporation, based in Osaka, Japan.  They have been working in the fine and ultrafine bubble space for well over two decades.  IDEC Corporation has been a leading force in the field and is instrumental in the movement to standardize definitions and measurement techniques through a process currently being undertaken by the International Organization for Standardization (ISO).


IDEC Scientist Testing Laboratory set up of Gaia Technology

In August of 2016, Gaia was invited to visit IDEC to have the efficacy of Gaia’s patent pending technology analyzed in production of ultrafine nanobubbles. The testing was conducted at the University of Osaka, Photonics Department laboratory under the supervision of IDEC scientists. A Malvern Particle Analyzer, the NanoSight NS500V-HS, was used to determine composition of bubbles produced and dissolved gas measurements. These tests were performed with oxygen and carbon dioxide gases. The experiments performed showed that Gaia technology produced bubbles in the range of 100 nanometers (0.1 microns) in size with volume concentrations dependent on the gas injected.


Recognizing the complimentary nature of Gaia’s technology to that offered by IDEC, the companies executed a Cooperative Business Relationship Agreement in December, 2016.  The Agreement, which continues today, solidified the companies’ working relationship in expanding the ultrafine nanobubble markets in the US and internationally.


For more information on IDEC Corporation and proprietary GaLF Ultrafine Bubble Technology, please click here.

The citrus industry, worldwide, has been battling one of the most destructive and devastating diseases, Huanglongbing, yellow dragon disease, or more commonly referred to as HLB. The disease is caused by a vector-transmitted pathogen, from the bacterium species Candidatus Liberibacter. The vectors are small plant feeding insects of the family Psyllidae. These insects spread the three different forms of the bacterium into citrus trees.  The infection into the trees causes incredible destruction from yellowing of the veins and tissues, premature defoliation of leaves, stunted growth, irregular shaped fruit with green color at the navel side, and eventual tree death.


HLB Infected Orange Tree

The Psyllidae vector, Diaphorina citri, is responsible for HLB in regions of Florida, Georgia, Louisiana, South Carolina, Texas, Hawaii and Southern California. Other vector transmissions have been observed across the globe some of which being Cuba, Saudi Arabia, Belize, South Africa and South East Asia.  The economic fallout of infected HLB citrus groves has been a challenge for growers worldwide.


Gaia, a global leader in the ultrafine nanobubble technology arena has jointly been collaborating with the United States Department of Agriculture (U.S.D.A.) at the U.S. Horticultural Research Laboratory in Ft. Pierce, Florida sine 2017. For the purpose of investigating the use of ultrafine nanobubble technology to combat HLB.


Geneticist, Dr. Randy P. Niedz, Ph.D., has spearheaded the research in a scientific and objective manner. Researching the effects of how oxygenated ultrafine/nanobubbles suspended in water interact with healthy and HLB infected citrus plants. Results indicate an increase in the size and fresh root mass, up to 28%. These results were presented at the Florida Citrus Show in January 2020, and widely received as the future of care in treating HLB. Due to the positive results and wide reception secondary studies are currently underway and will be updated as soon as they are available.


To watch the presentation from the show, click here.

Gaia, a global leader in the development and application of super oxygen saturation systems empowered by ultra-fine nanobubble technology, has had an ongoing relationship with Cermaq, Canada for over 10 years, starting with evaluation systems and progressing to full implementation in several of their farms in Canada and Chile. Gaia’s patented super saturation technology continues to be a leader in ultra-fine nanobubble systems designed to boost oxygen levels in aquaculture, remediate algae and improve fish health and growth.


Scientists for decades have noted the increasing frequency of phytoplankton blooms (algae) as global temperatures rise. These current warming trends in the oceans cause phytoplankton blooms, reduced health and low harvest weight due to less than optimal dissolved oxygen levels. The warmer the water the lower the level of naturally occurring dissolved oxygen.  These occurrences, experienced around the world, have a significant negative impact on open ocean aquaculture.


Gaia’s patent pending process for creating oxygen ultra-fine nanobubbles is vital to the future of aquaculture producers, remediating phytoplankton while providing sustainable oxygen levels that maximize fish health and growth.


In the July/August 2019 issue of Aquaculture North America, salmon producer Cermaq, Canada speaks about the use of Gaia ultra-fine nanobubble technology in delivering oxygen efficiently to their farms to help mitigate the effects of low dissolved oxygen in ocean water. Gaia’s ultra-fine nanobubbles remain stable in solution for a much longer time than other aeration systems in use by many producers.  Further, Gaia ultra-fine nanobubble oxygenation technology can be deployed at varying depths depending on pen construction.


Gaia continues to work with aquaculture companies worldwide to provide them with ultra-fine nanobubble technical expertise and installation support to meet their needs.


View more media in our Gallery.
Read the full Aquaculture North America article here.

Freshwater environments across the globe continue to be threatened by the intrusion of brackish and salt-water for a variety of reasons. This puts naturally occurring groundwater and other freshwater stores at risk, even when they are not in close proximity to a coastline.


Within the United States, states such as California, Florida, Arizona and many others are among the areas where this is taking place. Regions in Asia, the Middle East and Africa have all seen freshwater supplies for agriculture begin to dwindle due to brackish water infiltrating natural freshwater reservoirs. Brackish salinated water results in plant stress for producers.  The instability created by this ecosystem change is a major concern in global food security.


Gaia, a global leader in the ultra-fine nanobubble technology arena has jointly been collaborating within the BioResource & Agricultural Engineering (BRAE) Department at California Polytechnic University (CalPoly), since 2017 to create a solution to this rising problem.


Department Head Dr. Peter Livingston, P.E., and Sara Kuwahara, Ph.D., of Cal Poly’s BRAE Department focused their research on finding ways to produce food in environments which are otherwise unsuitable for agricultural activity due to brackish/heavily salinated nature of their water sources. Their ongoing research has employed Gaia’s patented ultra-fine nanobubble oxygen technology to deliver targeted oxygen levels, along with trillions of nanosized bubbles allowing food to be grown in water containing up to 20,000 parts per million of salt.


In the Summer 2017 issue of Cultivate Magazine published by the College of Agriculture, Food and Environmental Sciences at CalPoly, Dr. Livingston speaks about the use of the Gaia Ultra-fine Nanobubble technology in delivering oxygen ultra-fine nanobubbles to research the potential of growing food in highly saline water.


Read the full article on page 10-11 here.

Gaia, a global leader in Ultra-fine Nanobubble technology, has collaborated with the Department of Agriculture and Biosystems Engineering at The University of Arizona (UA).


University of Arizona’s Isaac Hung demonstrated the potential benefits of injecting ozone gas, with Gaia’s ultra-fine nanobubble technology, to disinfect and reclaim wash water utilized in agricultural harvesting processes.


Conventional methods of washing freshly harvested produce use chemicals such as chlorine and large volumes of valuable water that are delivered from natural sources. Because of this processing approach, the wash water is normally discharged into wash basins or sewer systems after one use incurring extraordinary costs due to the processor’s disposal fees and their inability to recycle reclaim water for reuse. This wastewater contains disinfectant residuals, such as chloramines, chlorine, and chlorine dioxide. Such disinfectants preclude the wastewater from being recycled for other agricultural applications.


Ozonated water is approved by the USDA as an alternative to chlorine-based disinfection, most notably with Organic Certified Produce. The application of ozone in harvest processing is a disinfection solution without any residual chemicals, granting processors the opportunity to reuse the reclaimed water in processing and other agricultural activities. The nature of the ozonated water produced with Gaia ultra-fine nanobubble technology (0.1 microns or 100 nanometers in size) possesses an electrical charge on the outer shell. This electrical charge results in deeper cleaning and superior disinfection. With the added benefit of zero residual ozone due to the it’s short half-life, the ability to reclaim and recycle wash water results in lower costs, lower energy use and overall lower water usage.

View more media in our Gallery.
To read more regarding University of Arizona (UA) Issac Hung’s findings click here.