Can an additive boost photosynthesis in plants?
CategoriesSustainable News

Can an additive boost photosynthesis in plants?

Spotted: Plant photosynthesis is limited by the amount of CO2, light intensity, and temperature. Plants typically convert just two to four per cent of available energy in radiation into new plant growth. This low efficiency has led to attempts to genetically alter plants to make them more efficient, which has provoked concerns over the associated risks to food security.

However, Malaysia-based agritech startup Qarbotech claims that its new product, QarboGrow, can enhance photosynthesis without resorting to genetic modification. It does this through the use of organic compounds with properties similar to chlorophyll. The startup’s product, QarboGrow, is sprayed onto crops, where it penetrates the leaf’s surface and interacts with chloroplasts. This interaction promotes greater energy transfer, helping to boost the rate of photosynthesis within a plant.

Qarbotech claims its nanotechnology-based solution can be used in-soil or on-plant, and can enhance the photosynthesis rate of plants by 30 per cent. This translates to a 30 per cent increase in plant growth, a 25 per cent reduction in crop growth cycles, and a 20 per cent increase in the sweetness of fruits.

The company recently announced that it has raised $700,000 (around €640,000) in seed funding, grants, and awards. Qarbotech will use the funding to strengthen research and development and expand its manufacturing facility to produce up to 50 times its current capacity.

Climate change and the growing global population are spurring a host of innovations aimed at improving agriculture. Recent developments that Springwise has spotted include a plan to make regenerative farming easier and cheaper to adopt and using bespoke bio-inoculants to improve soil health and reduce fertiliser use.

Written By: Lisa Magloff

Reference

'Artificial photosynthesis’ could be the future of food
CategoriesSustainable News

‘Artificial photosynthesis’ could be the future of food

Spotted: Through photosynthesis, plants convert water, carbon dioxide, and energy from sunlight into sugars that they use to grow biomass. This process has been the basis of the food chain for millions of years, yet it is surprisingly inefficient. In fact, only about one per cent of the energy found in sunlight actually ends up in the plant. Now, scientists at the University of California Riverside have found a way to improve on mother nature by bypassing biological photosynthesis entirely.

The research team used a special type of electrolyser—a device that uses electricity to obtain useful molecules from raw materials—to convert carbon dioxide into a substance called acetate. Plants can directly consume this substance to grow, without the need for photosynthesis. The team used solar panels to generate power for the electrocatalysis.

The artificial system converts sunlight into food far more efficiently than biological photosynthesis. And experiments have found that mushrooms, yeast, and green algae could all be grown in complete darkness using the electrolyser-derived acetate. Producing algae with acetate was four times more energy efficient than producing it through photosynthesis. Yeast does not photosynthesise and is normally cultivated using sugars from corn. Cultivating it with acetate, however, was 18 times more efficient.

The technology could be used to create ‘food factories’ that are entirely independent of sunlight. This would enable crops to be grown in locations where sunlight is scarce, such as underground or in space. The research is still in its early stages, but the potential applications of the technology are numerous.

Springwise has spotted other innovations featuring photosynthesis including an algae-powered microprocessor, technology that supports growth through CO2 captured from the air, and a wastewater system that uses a process similar to photosynthesis.

Written By: Katrina Lane

Website: ucr.edu

Contact: ucr.edu/contact

Reference