Z. Ekin, "Co-application of humic acid and bacillus strains enhances seed and oil yields by mediating nutrient acquisition of safflower (Carthamus tinctorius l.) plants in a semi-arid region," Applied Ecology and Environmental Research , vol.18, pp.1883-1900, 2020
Ekin, Z. 2020. Co-application of humic acid and bacillus strains enhances seed and oil yields by mediating nutrient acquisition of safflower (Carthamus tinctorius l.) plants in a semi-arid region. Applied Ecology and Environmental Research , vol.18 , 1883-1900.
Ekin, Z., (2020). Co-application of humic acid and bacillus strains enhances seed and oil yields by mediating nutrient acquisition of safflower (Carthamus tinctorius l.) plants in a semi-arid region. Applied Ecology and Environmental Research , vol.18, 1883-1900.
Ekin, Zehra. "Co-application of humic acid and bacillus strains enhances seed and oil yields by mediating nutrient acquisition of safflower (Carthamus tinctorius l.) plants in a semi-arid region," Applied Ecology and Environmental Research , vol.18, 1883-1900, 2020
Ekin, Zehra. "Co-application of humic acid and bacillus strains enhances seed and oil yields by mediating nutrient acquisition of safflower (Carthamus tinctorius l.) plants in a semi-arid region." Applied Ecology and Environmental Research , vol.18, pp.1883-1900, 2020
Ekin, Z. (2020) . "Co-application of humic acid and bacillus strains enhances seed and oil yields by mediating nutrient acquisition of safflower (Carthamus tinctorius l.) plants in a semi-arid region." Applied Ecology and Environmental Research , vol.18, pp.1883-1900.
@article{article, author={Zehra Ekin}, title={Co-application of humic acid and bacillus strains enhances seed and oil yields by mediating nutrient acquisition of safflower (Carthamus tinctorius l.) plants in a semi-arid region}, journal={Applied Ecology and Environmental Research}, year=2020, pages={1883-1900} }