[PDF][PDF] UNM Digital Repositor y
JM Roesgen - 2023 - digitalrepository.unm.edu
Oxygenic photosynthesis supports the majority of life on Earth through the capture of energy
from sunlight and the assimilation of CO2 into basic building blocks of cells. Microalgae are …
from sunlight and the assimilation of CO2 into basic building blocks of cells. Microalgae are …
[HTML][HTML] A Novel System for Real-Time, In Situ Monitoring of CO2 Sequestration in Photoautotrophic Biofilms
Climate change brought about by anthropogenic CO2 emissions has created a critical need
for effective CO2 management solutions. Microalgae are well suited to contribute to efforts …
for effective CO2 management solutions. Microalgae are well suited to contribute to efforts …
Dynamic changes in community composition of Scenedesmus-seeded artificial, engineered microalgal biofilms
Artificial, non-sterile, microalgal biofilms present a promising biotechnological avenue for the
production of valuable biomass, biofuels and biochemicals while simultaneously engaging …
production of valuable biomass, biofuels and biochemicals while simultaneously engaging …
Increasing algal photosynthetic productivity by integrating ecophysiology with systems biology
G Peers - Trends in biotechnology, 2014 - cell.com
Oxygenic photosynthesis is the process by which plants, algae, and cyanobacteria convert
sunlight and CO 2 into chemical energy and biomass. Previously published estimates …
sunlight and CO 2 into chemical energy and biomass. Previously published estimates …
Bacterial response to spatial gradients of algal-derived nutrients in a porous microplate
Photosynthetic microalgae are responsible for 50% of the global atmospheric CO2 fixation
into organic matter and hold potential as a renewable bioenergy source. Their metabolic …
into organic matter and hold potential as a renewable bioenergy source. Their metabolic …
Managing carbon dioxide mass transfer in photobioreactors for enhancing microalgal biomass productivity
Mitigating greenhouse-gas emissions, of which fossil-derived carbon dioxide (CO 2) is the
dominant component, is becoming increasingly imperative. One of the tools for lowering the …
dominant component, is becoming increasingly imperative. One of the tools for lowering the …
[HTML][HTML] Bio-decarbonization by microalgae: a comprehensive analysis of CO2 transport in photo-bioreactor
P Li, Y Huang, A Xia, X Zhu, X Zhu, Q Liao - DeCarbon, 2023 - Elsevier
Microalgae biofilm is a typical porous structure where CO 2 is converted by microalgae into
organic matter. Therefore, CO 2 transport and its distribution in porous biofilm are crucial for …
organic matter. Therefore, CO 2 transport and its distribution in porous biofilm are crucial for …
Optimisation of microalgae biofilms as a future source of biomolecules
Y Gao - 2023 - hal.science
Biofilm-based microalgae technologies are attracting more attention for their potential to
improve sustainability and cost-effectiveness compared with suspended-cells systems …
improve sustainability and cost-effectiveness compared with suspended-cells systems …
Dual gradients of light intensity and nutrient concentration for full-factorial mapping of photosynthetic productivity
Optimizing bioproduct generation from microalgae is complicated by the myriad of coupled
parameters affecting photosynthetic productivity. Quantifying the effect of multiple coupled …
parameters affecting photosynthetic productivity. Quantifying the effect of multiple coupled …
Microalgae: a promising tool for carbon sequestration
UB Singh, AS Ahluwalia - Mitigation and Adaptation Strategies for Global …, 2013 - Springer
Increasing trends in global warming already evident, the likelihood of further rise continuing,
and their impacts give urgency to addressing carbon sequestration technologies more …
and their impacts give urgency to addressing carbon sequestration technologies more …