Boron aids in the transfer of sugars and nutrients from leaves to reproductive organs, and increases pollination and seed development. Corn requires a supply of available boron, especially during tasseling and silking.
Mato Grosso do Sul, Brazil (2018-2019): Increased seed cotton yield
Mato Grosso, Brazil (2021-2022): Granubor increased yield by 19.5%
Sinop, MT – Brazil (2022-2024): Treatments increased yield over the control (foliar treatment)
Sinop, MT – Brazil (2023): Treatments increased yield over the control when Granubor applied via soil
See how refined boron improved coffee yield and quality over a two-year period.
Hear the key results of a two-year rice trial, conducted by U.S. Borax and the International Rice Research Institute, on the effect of borates on rice quality and yield in China.
To determine the optimum rate and method of applying sufficient boron for optimum yields, growers need to know the relative boron needs for their crops.
Depending on the boron source (B), the solubility and dissolution time (release of B) may change, impacting the recommended dose and management of B in the crop.
In order to aid in understanding the response of soy and corn to some sources available on the market, Schaich (2021) conducted two fieldwork experiments comparing sources and dosages of boron.
Mato Grosso, Brazil (2019-2022): Midway results of a five-year study results in higher volumes with Granubor.
To aid in understanding the response of soybeans to applications of different doses of boron, Zabini (2021) conducted field experiments comparing doses of boron in two different types of soils in different locations in Paraguay.