BMC Microbiology (Nov 2023)

Unlocking gut microbiota potential of dairy cows in varied environmental conditions using shotgun metagenomic approach

  • Faheem Ahmed Khan,
  • Nuruliarizki Shinta Pandupuspitasari,
  • Chunjie Huang,
  • Windu Negara,
  • Bilal Ahmed,
  • Ezi Masdia Putri,
  • Puji Lestari,
  • Tri Puji Priyatno,
  • Ari Prima,
  • Vita Restitrisnani,
  • Maman Surachman,
  • Sindu Akhadiarto,
  • I Wayan Angga Darmawan,
  • Dimar Sari Wahyuni,
  • Herdis Herdis

DOI
https://doi.org/10.1186/s12866-023-03101-7
Journal volume & issue
Vol. 23, no. 1
pp. 1 – 11

Abstract

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Abstract Food security and environmental pollution are major concerns for the expanding world population, where farm animals are the largest source of dietary proteins and are responsible for producing anthropogenic gases, including methane, especially by cows. We sampled the fecal microbiomes of cows from varying environmental regions of Pakistan to determine the better-performing microbiomes for higher yields and lower methane emissions by applying the shotgun metagenomic approach. We selected managed dairy farms in the Chakwal, Salt Range, and Patoki regions of Pakistan, and also incorporated animals from local farmers. Milk yield and milk fat, and protein contents were measured and correlated with microbiome diversity and function. The average milk protein content from the Salt Range farms was 2.68%, with an average peak milk yield of 45 litters/head/day, compared to 3.68% in Patoki farms with an average peak milk yield of 18 litters/head/day. Salt-range dairy cows prefer S-adenosyl-L-methionine (SAMe) to S-adenosyl-L-homocysteine (SAH) conversion reactions and are responsible for low milk protein content. It is linked to Bacteroides fragilles which account for 10% of the total Bacteroides, compared to 3% in the Patoki region. The solid Non-Fat in the salt range was 8.29%, whereas that in patoki was 6.34%. Moreover, Lactobacillus plantarum high abundance in Salt Range provided propionate as alternate sink to [H], and overcoming a Methanobrevibacter ruminantium high methane emissions in the Salt Range. Furthermore, our results identified ruminant fecal microbiomes that can be used as fecal microbiota transplants (FMT) to high-methane emitters and low-performing herds to increase farm output and reduce the environmental damage caused by anthropogenic gases emitted by dairy cows.

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