September 1990
Posters | Terra-Sorb®
A low athmospheric humidity, the stomata close and transpiration decreases. This adaptation produces a reduction in the net photosynthesis an increases in photorespiration and depletion of the plants macro and micronutrients as a consequence of the uptake reduction which has a negative effect on the final yield of the crop
August 1990
Scientific Communications | Terra-Sorb®
Water potential of climatic stress in Lycopersicum Sculentum leaves treated with biological molecules. Net photosynthesis of plants submitted to climatic stress, decreases when there is a reduction in the relative humidity or an increase in the temperature. Treatment with a molecule solution of biological origin, on plants submitted to stress, have slowed down this fall in the photosynthesis
September 1989
Scientific Communications | Terra-Sorb®
Relationship between net photosynthesis and variations in climate factors in lycopersicon esculentum: effect of protective action of different treatments with amino acids and other substances in reducing net photosynthesis in stress situations
September 1989
Posters | Terra-Sorb®
The related literature describes the absorption of amino acids by leaves and/or roots in normal situations and in special circumstances, the osmosis-regulating role of Arg, Asn and Gln in hypertonic media, and the accumulation of certain amino acids in situations of climate stress
December 1987
Scientific articles | Terra-Sorb®
Bioibérica compared in the effects what researchers such as Joy and Antcliff, Yamaguchi and others had already described, i.e., that free amino acids and peptides with a low molecular weight (a peptide is a molecule formed by 2 or more amino acids) are directly absorbed by the plant via the leaves and/or roots, without the need for prior application of minerals.