" In marigold , the use of this low price engineering resulted in a 21 % increase in bud and flower ontogeny " , tell Roy Weller of Aquapulse piddle technology , an irrigation technology that utilize nano and micro house of cards system to modify water properties . What set it asunder is its ability to maneuver without external power , and is a formula of Feldspar mineral , which are aerate upon physical contact with water . On top of that , this engineering science is natural , chemical - gratis , and certify organic by the UK Soil Association and it can be establish quickly with no upkeep prerequisite . Aquapulse is used across various sectors , including full-grown produce , where it has shown positive results for plant growing in several crop . Ongoing research aims to expand its software to a broader range of crop in the future .
How does it work?Weller : " Aquapulse generates nano and micro bubble ( NMBs ) in water . These bubble are much low than a caryopsis of salt — around 2,500 multiplication smaller — and range from the size of it of a virus to a bacteria . NMBs have unique holding that alter the characteristics of water . They are stable , carry a negative electric charge , and attract positively charged particles in the urine , which can affect how the water interacts with plants . It can be establish speedily as the cartridge can be simply immersed to address water . "
Effects on full-grown produceInitial trial run of Aquapulse - treated water prove cocksure result on several plant species , including tomatoes , lamb ’s lettuce , and marigolds , when water with Aquapulse treated piddle versus those irrigate in untreated water :
Marigold : 21 % increase in bloom and bud development , 29 % greater fresh weigh , and capital snowy root evolution . Lycopersicon esculentum : 56 % increase in ironic weightCapsicum : 26 % step-up in yield weightMaize : 8 % addition in origin areaLamb ’s Lettuce : 16 % increase in dry weight , 39 % increase in refreshing weightStrawberry : 13.9 % increase in final crop yield
Next StepsAccording to Weller , additional scientific rating is required to further understand the exact chemical mechanism of Aquapulse - treated water on plants . " This will focus on physiologic and structural impacts on plants and the mechanisms at gambol . The body of work will focus on identify specific species that Aquapulse has the greatest impingement on , identifying economic benefits in high - value crops , and optimisomg the program of Aquapulse in a farming environment . "
In conclusion , while Aquapulse ’s nano and micro house of cards engineering has shown promise in enhancing plant growing and improving agrarian practice , ongoing research is focalize on maximise its potency and expanding its use across a broad range of crops .
For more informationRoy WellerAquapulse[email protected]www.aquapulse.technology
Frontpage photo : © Aquapulse
© FloralDaily.com/Elita Vellekoop
