[HTML][HTML] Enhanced physiological and Biochemical Performance of Mung Bean and Maize under saline and Heavy Metal Stress through application of endophytic …
Modern irrigation practices and industrial pollution can contribute to the simultaneous
occurrence of salinity and heavy metal contamination in large areas of the world, resulting in …
occurrence of salinity and heavy metal contamination in large areas of the world, resulting in …
Enhanced Physiological and Biochemical Performance of Mung Bean and Maize under Saline and Heavy Metal Stress through Application of Endophytic Fungal …
M Aizaz, I Khan, S Asaf, S Bilal, R Jan… - Cells (2073 …, 2023 - search.ebscohost.com
Modern irrigation practices and industrial pollution can contribute to the simultaneous
occurrence of salinity and heavy metal contamination in large areas of the world, resulting in …
occurrence of salinity and heavy metal contamination in large areas of the world, resulting in …
[HTML][HTML] Enhanced Physiological and Biochemical Performance of Mung Bean and Maize under Saline and Heavy Metal Stress through Application of Endophytic …
M Aizaz, I Khan, S Asaf, S Bilal, R Jan, AL Khan… - Cells, 2023 - ncbi.nlm.nih.gov
Modern irrigation practices and industrial pollution can contribute to the simultaneous
occurrence of salinity and heavy metal contamination in large areas of the world, resulting in …
occurrence of salinity and heavy metal contamination in large areas of the world, resulting in …
Enhanced Physiological and Biochemical Performance of Mung Bean and Maize under Saline and Heavy Metal Stress through Application of Endophytic Fungal …
M Aizaz, I Khan, S Asaf, S Bilal, R Jan, AL Khan… - Cells, 2023 - pubmed.ncbi.nlm.nih.gov
Modern irrigation practices and industrial pollution can contribute to the simultaneous
occurrence of salinity and heavy metal contamination in large areas of the world, resulting in …
occurrence of salinity and heavy metal contamination in large areas of the world, resulting in …
Enhanced Physiological and Biochemical Performance of Mung Bean and Maize under Saline and Heavy Metal Stress through Application of Endophytic Fungal …
M Aizaz, I Khan, S Asaf, S Bilal, R Jan, AL Khan… - Cells, 2023 - research.knu.ac.kr
Modern irrigation practices and industrial pollution can contribute to the simultaneous
occurrence of salinity and heavy metal contamination in large areas of the world, resulting in …
occurrence of salinity and heavy metal contamination in large areas of the world, resulting in …
Enhanced Physiological and Biochemical Performance of Mung Bean and Maize under Saline and Heavy Metal Stress through Application of Endophytic Fungal …
M Aizaz, I Khan, S Asaf, S Bilal, R Jan, AL Khan… - Cells, 2023 - europepmc.org
Enhanced Physiological and Biochemical Performance of Mung Bean and Maize under Saline
and Heavy Metal Stress through Application of Endophytic Fungal Strain SL3 and Exogenous …
and Heavy Metal Stress through Application of Endophytic Fungal Strain SL3 and Exogenous …
Enhanced Physiological and Biochemical Performance of Mung Bean and Maize under Saline and Heavy Metal Stress through Application of Endophytic Fungal …
M Aizaz, I Khan, S Asaf, S Bilal, R Jan, AL Khan… - Cells, 2023 - search.proquest.com
Modern irrigation practices and industrial pollution can contribute to the simultaneous
occurrence of salinity and heavy metal contamination in large areas of the world, resulting in …
occurrence of salinity and heavy metal contamination in large areas of the world, resulting in …
[PDF][PDF] Lubna
M Aizaz, I Khan - Asaf, S - researchgate.net
Modern irrigation practices and industrial pollution can contribute to the simultaneous
occurrence of salinity and heavy metal contamination in large areas of the world, resulting in …
occurrence of salinity and heavy metal contamination in large areas of the world, resulting in …