Imran Ahammad Siddique- M.S. in Soil Science
- Professor (Assistant) at Bangladesh Agricultural University
Imran Ahammad Siddique
- M.S. in Soil Science
- Professor (Assistant) at Bangladesh Agricultural University
Working with GHG fluxes and transformation for GHG mitigation between annual and perennial systems
About
10
Publications
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Introduction
Imran Ahammad Siddique finished his PhD in the climate and water section in the Department of Agroecology, Aarhus University. Imran did his research in agroecology under climate change.
He performed meta-analyses on SOC stock and conducted field experiments to better estimate C fluxes and N2O using high-resolution data.
He also worked on N use efficiency from rice and effect of water and nutrient management on N2O emissons from rice field in Bangladesh
Current institution
Additional affiliations
November 2020 - June 2024
Position
- PhD Candidate
Description
- Performing meta-analysis to explore robust database on SOC and understanding CO2, N2O flux dynamics and annual emissions from annual and perennial systems
August 2016 - September 2016
Position
- Visiting Fellow
Description
- Perform laboratory visit in different renowed Agricultural Institutions in Japan and conducted rigorous demonstration in laboratory facilities and equipments
June 2019 - June 2019
Education
July 2015 - December 2016
January 2011 - February 2015
Publications
Publications (10)
Perennials can produce more biomass and partially replace annual crops. However, environmental benefits of perennials over annuals in terms of nitrous oxide (N 2 O) emissions have rarely been compared in a long-term field experiment. By combining automatic and manual chamber methods, we aimed to develop reliable N 2 O estimates from annual and pere...
Investigation of CO2 fluxes in different annual and perennial systems using manual and automatic chamber system. We explored different partitioning of C fluxes into NEE( net ecosystem exchange), ER (ecosystem respiration) , SR ( soil respiration), HR ( heterotrophic respiration) and AR ( autotrophic respiration)
Perennial crops replacing annual crops are drawing global attention because they harbor potential for sustainable biomass production and climate change mitigation through soil carbon sequestration. At present, it remains unclear how long perennial crops can sequester carbon in the soil and how soil carbon stock dynamics are influenced by climate, s...
Reducing methane (CH4) emissions and water use in irrigated rice systems while maintaining production to feed the ever-increasing population is vital in Bangladesh. Different rice establishment methods viz. alternate wetting & drying (AWD), system rice intensification (SRI) and direct wet seeded rice (DWSR), have a promising mitigation potential to...
Pomegranate (Punica granatum L.) is one of the most important fruit trees in semi-arid land. Previous studies were primarily focused on soil microbial community composition under different pomegranate plantation managements. However, soil microbial community composition under long-term pomegranate plantation has rarely been studied. We investigated...
A field experiment was conducted to investigate the dynamics of ammonium nitrogen (NH4+-N) in the soil during an entire rice-growing season. The NH4+-N dynamics were measured in paddy soils from two N application methods, namely, urea deep placement (UDP) and broadcast prilled urea (PU). The pore water samples from a 10 cm soil depth were collected...
Anthropogenic emission of methane under anaerobic condition of irrigated rice field is a global concern contributing to global warming more than any other greenhouse gases. A field experiment was conducted with eight rice genotypes to identify the genotype(s) with low methane emission coupled with high yielding potential. Emissions of methane were...
Urea deep placement (UDP) in lowland rice soils at 7-10 cm depth concentrate ammonium nitrogen (NH4-N) in the anaerobic soil layer reducing its movement to the soil surface or in floodwater. Deep placement ensures retention of NH4-N in the soils for longer period, thus a single application is sufficient for whole rice-growing season compared to 2-3...
This thesis is all about the global warming concerns in the field agriculture especially from rice field. Nitrogen is the most limiting essential nutrient while broadcast application of urea as a form of nitrogen subjected to different loss including run-off, leaching, volatilization and denitrification. This study includes the best possible N mana...
