CSIRO Publishing

Food, fibre and pharmaceuticals from animals

Shopping Cart: ( empty )

Articles citing this paper

The influence of diet type (dairy versus intensive fattening) on the effectiveness of garlic oil and cinnamaldehyde to manipulate in vitro ruminal fermentation and methane production

I. Mateos ^A , M. J. Ranilla ^A ^B , M. L. Tejido ^B , C. Saro ^A , C. Kamel ^A ^C and M. D. Carro ^A ^B ^D ^E

+ Author Affiliations

- Author Affiliations

^A Departamento de Producción Animal, Universidad de León, 24071 León, Spain.

^B Instituto de Ganadería de Montaña (CSIC-ULE), Finca Marzanas s/n 24346 Grulleros, León, Spain.

^C Deceased.

^D Present address: Departamento de Producción Animal, ETSI Agrónomos, Ciudad Universitaria, s/n Universidad Politécnica de Madrid, 28040 Madrid, Spain.

^E Corresponding author. Email: mariadolores.carro@upm.es

Animal Production Science 53(4) 299-307 https://doi.org/10.1071/AN12167
Submitted: 16 May 2012 Accepted: 27 September 2012 Published: 23 January 2013

28 articles found in Crossref database.

Fitting of the In Vitro Gas Production Technique to the Study of High Concentrate Diets

Amanzougarene Zahia, Fondevila Manuel

Animals. 2020 10(10). p.1935

Effectiveness of Interventions to Modulate the Rumen Microbiota Composition and Function in Pre-ruminant and Ruminant Lambs

Saro Cristina, Hohenester Ulli M., Bernard Mickael, Lagrée Marie, Martin Cécile, Doreau Michel, Boudra Hamid, Popova Milka, Morgavi Diego P.

Frontiers in Microbiology. 2018 9

Effect of cellobiose supplementation and dietary soluble fibre content on in vitro caecal fermentation of carbohydrate-rich substrates in rabbits

Ocasio-Vega César, Abad-Guamán Rodrigo, Delgado Rebeca, Carabaño Rosa, Carro María Dolores, García Javier

Archives of Animal Nutrition. 2018 72(3). p.221

Effects of a blend of essential oils on milk yield and feed efficiency of lactating dairy cows

Elcoso G., Zweifel B., Bach A.

Applied Animal Science. 2019 35(3). p.304

Comparison of fermentation characteristics and bacterial diversity in the rumen of sheep and in batch cultures of rumen microorganisms

MATEOS I., RANILLA M. J., SARO C., CARRO M. D.

The Journal of Agricultural Science. 2015 153(6). p.1097

Farklı sarımsak yağı dozlarının, korunga otunun in vitro gaz üretimi, rumen fermantasyonu ve metan üretimi üzerine etkisi

UZATICI Ahmet, CANBOLAT Önder

Ankara Üniversitesi Veteriner Fakültesi Dergisi. 2019 66(3). p.289

In vitro–in vivo study on the effects of plant compounds on rumen fermentation, microbial abundances and methane emissions in goats

Martínez-Fernández G., Abecia L., Martín-García A.I., Ramos-Morales E., Hervás G., Molina-Alcaide E., Yáñez-Ruiz D.R.

Animal. 2013 7(12). p.1925

Effects of cinnamon bark meal (Cinnamomum burmanni Ness ex Bl) as protein protection agent on in vitro rumen fermentation characteristic

Hadianto I, Yusiati L M, Bachrudin Z, Suhartanto B, Hanim C

IOP Conference Series: Earth and Environmental Science. 2019 387(1). p.012060

Garlic and Its Bioactive Compounds: Implications for Methane Emissions and Ruminant Nutrition

Sari Nurul Fitri, Ray Partha, Rymer Caroline, Kliem Kirsty E., Stergiadis Sokratis

Animals. 2022 12(21). p.2998

Dose-response effects of Asparagopsis taxiformis and Oedogonium sp. on in vitro fermentation and methane production

Machado Lorenna, Magnusson Marie, Paul Nicholas A., Kinley Robert, de Nys Rocky, Tomkins Nigel

Journal of Applied Phycology. 2016 28(2). p.1443

Immune status and haemato-biochemical profile of buffalo calves supplemented with phytogenic feed additives rich in tannins, saponins and essential oils

Lakhani Neeti, Kamra Devki Nandan, Lakhani Preeti, Alhussien Mohanned Naif

Tropical Animal Health and Production. 2019 51(3). p.565

The Reduction of Methane Production in the In Vitro Ruminal Fermentation of Different Substrates is Linked with the Chemical Composition of the Essential Oil

Garcia Florencia, Colombatto Darío, Brunetti M. Alejandra, Martínez M. José, Moreno M. Valeria, Scorcione Turcato M. Carolina, Lucini Enrique, Frossasco Georgina, Martínez Ferrer Jorge

Animals. 2020 10(5). p.786

Influence of malic acid-heat treatment for protecting sunflower protein against ruminal degradation on in vitro methane production: A comparison with the use of malic acid as an additive

Vanegas J.L., González J., Alvir M.R., Carro M.D.

Animal Feed Science and Technology. 2017 228 p.123

Potential of Recycling Cauliflower and Romanesco Wastes in Ruminant Feeding: In Vitro Studies

de Evan Trinidad, Vintimilla Andrea, Molina-Alcaide Eduarda, Ranilla María, Carro María

Animals. 2020 10(8). p.1247

Herbal additives influence in vitro fermentative attributes and methanogenesis differently in cattle and buffalo

Pattanaik Ashok Kumar, Ingale Santosh Laxmanrao, Baliyan Shalini, Dutta Narayan, Kamra Devki Nandan, Sharma Kusumakar

Animal Production Science. 2018 58(6). p.1064

Performance, carcass and ruminal fermentation characteristics of heifers fed concentrates differing in energy level and cereal type (corn vs. wheat)

Carrasco Coral, Carro María D., Fuentetaja Alfonso, Medel Pedro

Spanish Journal of Agricultural Research. 2018 15(4). p.e0606

Evaluation of different ensiling methods for Saccharina latissima preservation: influence on chemical composition and in vitro ruminal fermentation

Navarro Marcos Carlos, de Evan Rozada Trinidad, Carro Travieso María Dolores, Novoa-Garrido Margarita, Yen Ying, Fernández-Yepes Julia E., Molina-Alcaide Eduarda

Archives of Animal Nutrition. 2023 77(4). p.308

Influence of a mixture of cinnamaldehyde and garlic oil on rumen fermentation, feeding behavior and performance of lactating dairy cows

Blanch M., Carro M.D., Ranilla M.J., Viso A., Vázquez-Añón M., Bach A.

Animal Feed Science and Technology. 2016 219 p.313

Application of MootralTM Reduces Methane Production by Altering the Archaea Community in the Rumen Simulation Technique

Eger Melanie, Graz Michael, Riede Susanne, Breves Gerhard

Frontiers in Microbiology. 2018 9

Effects of Garlic Oil and Cinnamaldehyde on Sheep Rumen Fermentation and Microbial Populations in Rusitec Fermenters in Two Different Sampling Periods

García-Rodríguez Jairo, Saro Cristina, Mateos Iván, Carro María Dolores, Ranilla María José

Animals. 2024 14(7). p.1067

New aspects and strategies for methane mitigation from ruminants

Kumar Sanjay, Choudhury Prasanta Kumar, Carro Maria Dolores, Griffith Gareth Wyn, Dagar Sumit Singh, Puniya Monica, Calabro Serena, Ravella Sreenivas Rao, Dhewa Tejpal, Upadhyay Ramesh Chandra, Sirohi Sunil Kumar, Kundu Shivlal Singh, Wanapat Metha, Puniya Anil Kumar

Applied Microbiology and Biotechnology. 2014 98(1). p.31

Effects of propyl propane thiosulfinate on nutrient utilization, ruminal fermentation, microbial population and methane emissions in goats

Martínez-Fernández G., Abecia L., Ramos-Morales E., Martin-García A.I., Molina-Alcaide E., Yáñez-Ruiz D.R.

Animal Feed Science and Technology. 2014 191 p.16

Design, implementation and interpretation of in vitro batch culture experiments to assess enteric methane mitigation in ruminants—a review

Yáñez-Ruiz D.R., Bannink A., Dijkstra J., Kebreab E., Morgavi D.P., O’Kiely P., Reynolds C.K., Schwarm A., Shingfield K.J., Yu Z., Hristov A.N.

Animal Feed Science and Technology. 2016 216 p.1

The effect of diet of the donor cows on in vitro measurements of methane production from wheat and corn incubated in various forage‐to‐grain ratios

Alvarez‐Hess Pablo S, Moate Peter J, Williams S Richard O, Jacobs Joe L, Beauchemin Karen A, Durmic Zoey, Hannah Murray C, Eckard Richard J

Journal of the Science of Food and Agriculture. 2019 99(7). p.3451

Effects of Processing Methods and Inclusion Levels of Dried Garlic on In Vitro Fermentation and Methane Production in a Corn Silage-Based Substrate

Vargas Juan, Tarnonsky Federico, Maderal Araceli, Fernandez-Marenchino Ignacio, Podversich Federico, Cuervo Wilmer, Gomez-Lopez Camila, Schulmeister Tessa, DiLorenzo Nicolas

Animals. 2023 13(6). p.1003

Response of the rumen archaeal and bacterial populations to anti-methanogenic organosulphur compounds in continuous-culture fermenters

Martínez-Fernández Gonzalo, Abecia Leticia, Martín-García A. Ignacio, Ramos-Morales Eva, Denman Stuart E., Newbold Charles J., Molina-Alcaide Eduarda, Yáñez-Ruiz David R., Stams Alfons

FEMS Microbiology Ecology. 2015 91(8). p.fiv079

Manipulation of Rumen Fermentation and Methane Gas Production by Plant Secondary Metabolites (Saponin, Tannin and Essential Oil) – A Review of Ten-Year Studies

Jafari Saied, Ebrahimi Mahdi, Goh Yong M., Rajion Mohamed A., Jahromi Mohamed F., Al-Jumaili Wisam S.

Annals of Animal Science. 2019 19(1). p.3

Influence of protein fermentation and carbohydrate source on in vitro methane production

Vanegas J. L., González J., Carro M. D.

Journal of Animal Physiology and Animal Nutrition. 2017 101(5).