Ji‐Hyung Park, Omme K. Nayna, Most Shirina Begum, Chea Eliyan et al.
Abstract. Human activities are drastically altering water and material flows in river systems across Asia. These anthropogenic perturbations have rarely been linked to the carbon (C) fluxes of Asian rivers that may account for up to 40–50 % of the global fluxes. This review aims to provide a concept...
Md. Morshedul Haque, Nahin Mostofa Niloy, Omme K. Nayna, Konica J. Fatema et al.
The Ganges River is one of the biggest transboundary streams in the Indian sub-continent. The significant part of this waterway channel drains one of the most densely populated areas on the planet so it is unequivocally influenced by human activities. Unprecedented high-temporal-resolution samples w...
Most Shirina Begum, Matthew J. Bogard, David Butman, Chea Eliyan et al.
Abstract Despite growing research on greenhouse gas (GHG) emissions from inland waters, few systematic efforts have been made to assess the regional‐scale GHG emissions from Asian rivers under increasing anthropogenic stress. We examined factors controlling longitudinal and seasonal variations in th...
Md. Morshedul Haque, Most Shirina Begum, Omme K. Nayna, Shafi M. Tareq et al.
Abstract High‐frequency, paired measurements of the partial pressure of CO 2 ( p CO 2 ) and dissolved O 2 were combined with dissolved organic matter (DOM) characterization to investigate diurnal (7:00–19:00) and seasonal variations in CO 2 dynamics in the lower Ganges River. Diurnal variations in p...
Omme K. Nayna, V. V. S. S. Sarma, Most Shirina Begum, Jens Hartmann et al.
Anthropogenic perturbations are increasing uncertainties in estimating CO2 emissions via air-water CO2 flux (FCO2) from large rivers of the Indian subcontinent. This study aimed to provide an improved estimate of the total FCO2 from the subcontinental rivers by combining calculations of the partial ...
Ji‐Hyung Park, Omme K. Nayna, Most Shirina Begum, Chea Eliyan et al.
Abstract. Human activities are drastically altering water and material flows in river systems across Asia. These anthropogenic perturbations have rarely been linked to the carbon (C) fluxes of Asian rivers that may account for up to 40–50 % of the global fluxes. The primary object of this review was...