Modifying the rumen environment to reduce greenhouse gas emissions

Forskning

Modifying the rumen environment to reduce greenhouse gas emissions

Publikation: Bidrag til bog/antologi/rapport › Bidrag til bog/antologi › Forskning › fagfællebedømt

Standard

Modifying the rumen environment to reduce greenhouse gas emissions. / Alves Neves, Andre Luis.

Reducing greenhouse gas emissions from livestock production. Burleigh Dodds Science Publishing, 2020.

Publikation: Bidrag til bog/antologi/rapport › Bidrag til bog/antologi › Forskning › fagfællebedømt

Harvard

Alves Neves, AL 2020, Modifying the rumen environment to reduce greenhouse gas emissions. i Reducing greenhouse gas emissions from livestock production. Burleigh Dodds Science Publishing.

APA

Alves Neves, A. L. (2020). Modifying the rumen environment to reduce greenhouse gas emissions. I Reducing greenhouse gas emissions from livestock production Burleigh Dodds Science Publishing.

Vancouver

Alves Neves AL. Modifying the rumen environment to reduce greenhouse gas emissions. I Reducing greenhouse gas emissions from livestock production. Burleigh Dodds Science Publishing. 2020

Author

Alves Neves, Andre Luis. / Modifying the rumen environment to reduce greenhouse gas emissions. Reducing greenhouse gas emissions from livestock production. Burleigh Dodds Science Publishing, 2020.

Bibtex

@inbook{5f2d056b81c5491b95b4684516aed737,

title = "Modifying the rumen environment to reduce greenhouse gas emissions",

abstract = "The dramatic increase in the human population - estimated to reach 9.7 billion people by the year 2050 - will require an approximately 25% increase in gross agricultural output between 2020 and 2050 to meet the global food demand of humanity. A high-concentrate diet also has the capacity to change the rumen environment through shifts in ruminal pH, which in turn affects the diversity and composition of rumen microbiota. Belanche et al. proposed that Ascophyllum nodosum possessed anti-protozoal activity and showed that it decreased CH4 emissions from rumen fluid in vitro. In the rumen, archaea are one of the four main microbial groups. The domain archaea are divided into two different kingdoms: Euryarchaeota, consisting of methanogens and extreme halophytes, and Crenarchaeota, consisting of hyperthermophiles and nonthermophiles. Methanogens share a commensal relationship with rumen ciliates, and these protozoa-methanogen consortia account for approximately 30-40% of the enteric CH4 produced in ruminants.",

author = "{Alves Neves}, {Andre Luis}",

year = "2020",

language = "English",

booktitle = "Reducing greenhouse gas emissions from livestock production",

publisher = "Burleigh Dodds Science Publishing",

}

RIS

TY - CHAP

T1 - Modifying the rumen environment to reduce greenhouse gas emissions

AU - Alves Neves, Andre Luis

PY - 2020

Y1 - 2020

N2 - The dramatic increase in the human population - estimated to reach 9.7 billion people by the year 2050 - will require an approximately 25% increase in gross agricultural output between 2020 and 2050 to meet the global food demand of humanity. A high-concentrate diet also has the capacity to change the rumen environment through shifts in ruminal pH, which in turn affects the diversity and composition of rumen microbiota. Belanche et al. proposed that Ascophyllum nodosum possessed anti-protozoal activity and showed that it decreased CH4 emissions from rumen fluid in vitro. In the rumen, archaea are one of the four main microbial groups. The domain archaea are divided into two different kingdoms: Euryarchaeota, consisting of methanogens and extreme halophytes, and Crenarchaeota, consisting of hyperthermophiles and nonthermophiles. Methanogens share a commensal relationship with rumen ciliates, and these protozoa-methanogen consortia account for approximately 30-40% of the enteric CH4 produced in ruminants.

AB - The dramatic increase in the human population - estimated to reach 9.7 billion people by the year 2050 - will require an approximately 25% increase in gross agricultural output between 2020 and 2050 to meet the global food demand of humanity. A high-concentrate diet also has the capacity to change the rumen environment through shifts in ruminal pH, which in turn affects the diversity and composition of rumen microbiota. Belanche et al. proposed that Ascophyllum nodosum possessed anti-protozoal activity and showed that it decreased CH4 emissions from rumen fluid in vitro. In the rumen, archaea are one of the four main microbial groups. The domain archaea are divided into two different kingdoms: Euryarchaeota, consisting of methanogens and extreme halophytes, and Crenarchaeota, consisting of hyperthermophiles and nonthermophiles. Methanogens share a commensal relationship with rumen ciliates, and these protozoa-methanogen consortia account for approximately 30-40% of the enteric CH4 produced in ruminants.

M3 - Book chapter

BT - Reducing greenhouse gas emissions from livestock production

PB - Burleigh Dodds Science Publishing

ER -

ID: 360263150