How Plants May Maintain Protein Homeostasis Under Rising Atmospheric CO2
Plant, Cell &Environment, Volume 49, Issue 5, Page 2654-2672, May 2026.ABSTRACT Vascular plants may employ several physiological mechanisms to stabilize their protein contents as atmospheric CO2 concentrations change over a day, year, decade, or century. One mechanism is that plants may rely more on soil ammonium as their nitrogen source when CO2 increases.
Arnold J. Bloom +2 more
wiley +1 more source
Numerical model estimation of biomethane production using an anaerobic CSTR: model formulation, parameter estimation and uncertainty/sensitivity analysis [PDF]
, 2018 Global climate change is becoming of increasing concern. Transportation makes up a large part of carbon gasses, which affects climate change and air quality.
Yazidi, Hatem +4 more
core
Increasing productivity and reducing methane emissions by supplementing feed with dietary lipids [PDF]
, 2012 Methane (CH4) is a by-product in the digestion of plant material by all cattle and sheep. Effectively it is wasted feed material and energy that could otherwise be available for animal production.
Harper, Karen +3 more
core +1 more source
Osmoregulation in methanogens [PDF]
, 1993 Our major goal of our work has been to develop and use NMR techniques to study how methanogenic archaebacteria deal with osmotic stress with the hope of providing insights into increasing the salt tolerance of other cells. The project has three main sections: (i) in vivo studies of methanogens; (ii) use of [sup l3]C- and [sup l5]N- labeled potential ...
openaire +2 more sources
Influent Wastewater Microbiota and Temperature Influence Anaerobic Membrane Bioreactor Microbial Community [PDF]
, 2016 Sustainable municipal wastewater recovery scenarios highlight benefits of anaerobic membrane bioreactors (AnMBRs). However, influences of continuous seeding by influent wastewater and temperature on attached-growth AnMBRs are not well understood. In this
Berg, K. J. +2 more
core +1 more source
The crystal structure of methanogen McrD, a methyl‐coenzyme M reductase‐associated protein
FEBS Open BioMethyl‐coenzyme M reductase (MCR) is a multi‐subunit (α2β2γ2) enzyme responsible for methane formation via its unique F430 cofactor. The genes responsible for producing MCR (mcrA, mcrB and mcrG) are typically colocated with two other highly conserved ...
Andrew J. Sutherland‐Smith +5 more
doaj +1 more source
Comparative genomics of rumen methanogens : a thesis presented in partial fulfillment of the requirements for the degree of Doctor of Philosophy in Biochemistry at Massey University, Palmerston North, New Zealand [PDF]
, 2016 Methane (CH4) emissions from agriculture represent around 9% of global anthropogenic greenhouse gas emissions. The single largest source of this CH4 is animal enteric fermentation, predominantly from ruminant livestock, where it is produced mainly in ...
Li, Yang
core
Journal of Dairy Science: Limited literature is available identifying phenotypical traits related to enteric methane (CH4) production from dairy cows, despite its relevance in relation to breeding for animals with a low CH4 yield (g/kg DMI) and the derived consequences hereof ...
Maria H. Kjeldsen +6 more
doaj +1 more source
Rice ScienceRice fields are one of the largest sources of methane (CH4), a potent greenhouse gas contributing significantly to global warming. Elucidating the underlying mechanisms and mitigating CH4 emissions from paddy fields is crucial for combating climate ...
Saleem ASIF +5 more
doaj +1 more source
Feeding to increase productivity and reduce greenhouse gas emissions [PDF]
, 2008 Methane is a by-product in the digestion of plant material by all cattle and sheep. Effectively it is wasted feed material and energy that could otherwise be available for animal production. It is also a major greenhouse gas (14% of Australia’s emissions)
Klieve, Athol
core +1 more source