Understanding the disparity in n-alkane production among angiosperms and gymnosperms from the higher Himalayas: Inferences drawn from a Machine Learning …
The relative abundances of n-alkanes in plant-derived organic matter serve as reliable
biomarkers in paleoecological studies, given that leaf wax characteristics in terrestrial plants …
biomarkers in paleoecological studies, given that leaf wax characteristics in terrestrial plants …
Understanding the disparity in n-alkane production among angiosperms and gymnosperms from the higher Himalayas: Inferences drawn from a Machine Learning …
B Dasgupta, A Ajay, P Prakash… - Organic …, 2022 - ui.adsabs.harvard.edu
The relative abundances of n-alkanes in plant-derived organic matter serve as reliable
biomarkers in paleoecological studies, given that leaf wax characteristics in terrestrial plants …
biomarkers in paleoecological studies, given that leaf wax characteristics in terrestrial plants …
Understanding the disparity in n-alkane production among angiosperms and gymnosperms from the higher Himalayas: inferences drawn from a machine learning …
B Dasgupta, A Ajay, P Prakash, P Sanyal - 2022 - cabidigitallibrary.org
The relative abundances of n-alkanes in plant-derived organic matter serve as reliable
biomarkers in paleoecological studies, given that leaf wax characteristics in terrestrial plants …
biomarkers in paleoecological studies, given that leaf wax characteristics in terrestrial plants …