An on-the-go planting system utilizing soil organic matter data to prescribed seeding rate, hybrid/variety selection or soil treatment. The system weights at least two field attribute data types, such as soil organic matter data and normalized yield data to prescribe one or more outcomes. The system can also generate a yield potential value so as to prescribe the outcomes.

The present invention relates to a process for producing biofertilizers/biostimulants from microalgae with intensive CO.sub.2 capture, which comprises the following steps: a) preparing an inoculum; b) cultivating for the production of microalgae biomass in a window photobioreactor; c) collecting the biomass by flocculation; d) drying the biomass, and grinding and extracting a polar fraction by solvent in a two-phase system; and e) analyzing the polar fraction by liquid chromatography.

The invention also relates to the extracts of wet biomass of the microalgae Scenedesmus sp., obtaining the polar fraction. This polar fraction contains amino acids, sugars, betaine derivatives, vitamin B3 (nicotinamide or nicotinic acid) and pantothenic acid (vitamin B5), the monoterpene loliolide and the tryptophan derivative indole-lactic acid (analogous to indole-acetic acid, a phytohormone of the auxin class).

The polar fraction can also be used as an input in the cultivation of soybeans, corn, sugar cane, cotton and coffee, among other cultivated species.

The present invention relates to a process for producing biofertilizers/biostimulants from microalgae with intensive CO.sub.2 capture, which comprises the following steps: a) preparing an inoculum; b) cultivating for the production of microalgae biomass in a window photobioreactor; c) collecting the biomass by flocculation; d) drying the biomass, and grinding and extracting a polar fraction by solvent in a two-phase system; and e) analyzing the polar fraction by liquid chromatography.

The invention also relates to the extracts of wet biomass of the microalgae Scenedesmus sp., obtaining the polar fraction. This polar fraction contains amino acids, sugars, betaine derivatives, vitamin B3 (nicotinamide or nicotinic acid) and pantothenic acid (vitamin B5), the monoterpene loliolide and the tryptophan derivative indole-lactic acid (analogous to indole-acetic acid, a phytohormone of the auxin class).

The polar fraction can also be used as an input in the cultivation of soybeans, corn, sugar cane, cotton and coffee, among other cultivated species.