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Food, fibre and pharmaceuticals from animals
RESEARCH ARTICLE

Diet supplementation with clinoptilolite improves energy status, reproductive efficiency and increases milk yield in dairy heifers

Maria A. Karatzia A B , Panagiotis D. Katsoulos A and Harilaos Karatzias A
+ Author Affiliations
- Author Affiliations

A Clinic of Farm Animals, School of Veterinary Medicine, Aristotle University of Thessaloniki, Thessaloniki, Greece.

B Corresponding author. Email: mkaratz@vet.auth.gr; maria_karatzia@yahoo.com

Animal Production Science 53(3) 234-239 https://doi.org/10.1071/AN11347
Submitted: 13 December 2011  Accepted: 21 August 2012   Published: 8 January 2013

Abstract

The objective of this study was to investigate the effect of long-term dietary inclusion of clinoptilolite on the energy status, reproductive parameters and milk yield of dairy heifers. Eighty Holstein pregnant heifers were equally divided to two groups: treatment group heifers were fed the ration supplemented with 200 g clinoptilolite per day; control group heifers were fed the basal ration and served as controls. The experiment started on Day 210 of gestation and lasted until the end of the first lactation period. Blood samples were collected from each animal at the start of the experiment, 30 days later on the day of calving and then on a monthly basis and were analysed for serum glucose and ketone bodies. On the same days, all animals were monitored for body condition score. Cows were observed for heat every day and were inseminated at first heat after the 60th day postpartum. Calving to first heat interval, calving to first service interval, number of services per conception and calving interval were calculated for both groups. Milk yield for each cow was recorded monthly and 305-day milk yield was calculated. Clinoptilolite supplementation significantly increased body condition score and blood serum concentration of glucose and significantly decreased blood serum concentration of ketone bodies. Clinoptilolite also improved significantly the reproductive parameters evaluated and significantly increased milk production. These results indicate that daily dietary administration of 200 g of clinoptilolite can be used for the improvement of animal performance in dairy herds.

Additional keywords: energy metabolism, productivity, reproduction, zeolite.


References

Barham D, Trinder P (1972) Improved colour reagent for determination of blood glucose by oxidase system. Analyst (London) 97, 142–145.
Improved colour reagent for determination of blood glucose by oxidase system.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DyaE38XhtlOks7Y%3D&md5=02b9c5d14482be1da78a824eb40c7db2CAS |

Butler WR (2003) Energy balance relationships with follicular development, ovulation and fertility in postpartum dairy cows. Livestock Production Science 83, 211–218.

Ettema JF, Santos JEP (2004) Impact of age at calving on lactation, reproduction, health and income in first-parity Holsteins on commercial farms. Journal of Dairy Science 87, 2730–2742.
Impact of age at calving on lactation, reproduction, health and income in first-parity Holsteins on commercial farms.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD2cXotVyntrs%3D&md5=914e2063d426a89ace2a324194cdde88CAS |

European Commission Regulation (2005) European Commission Regulation No. 1810/2005 of 4 November 2005 concerning a new authorisation for 10 years of an additive in feedingstuffs, the permanent authorisation of certain additives in feedingstuffs and the provisional authorisation of new uses of certain additives already authorised in feedingstuffs. Official Journal of the European Union. L&C L291, 1–7.

Filippidis A, Godelitsas A, Charistos D, Misaelides P, Kassoli-Fournaraki A (1996) The chemical behaviour of natural zeolites in aqueous environments: interactions between low-silica zeolites and 1 M NaCl solutions of different initial pH-values. Applied Clay Science 11, 199–209.
The chemical behaviour of natural zeolites in aqueous environments: interactions between low-silica zeolites and 1 M NaCl solutions of different initial pH-values.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DyaK28Xnt1erur0%3D&md5=863c75d6cd4574f61060e7d7734c386eCAS |

Galyean MI, Chabot RC (1981) Effect of sodium bentonite, buffer salts, cement kiln dust and clinoptilolite on rumen characteristics of beef steers fed a high roughage diet. Journal of Animal Science 52, 1197–1204.

Garcia-Peniche TB, Cassell B, Pearson RE, Misztal I (2005) Comparisons of Holsteins with Brown Swiss and Jersey cows on the same farm for age at first calving and first calving interval. Journal of Dairy Science 88, 790–796.
Comparisons of Holsteins with Brown Swiss and Jersey cows on the same farm for age at first calving and first calving interval.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD2MXpsFKrsQ%3D%3D&md5=a3d8ba07c5adfdb94b2661aa18d31d64CAS |

Gau N (1987a) Acetoacetic acid. In ‘Methods in clinical chemistry’. (Eds AJ Pesce, LA Kaplan) pp. 97–100. (CV Mosby Co.: St Louis, MO)

Gau N (1987b) B-hydroxybutiric acid. In ‘Methods in clinical chemistry’. (Eds AJ Pesce, LA Kaplan) pp. 101–104. (CV Mosby Co.: St Louis, MO)

Grabherr H, Spolders M, Lebzien P, Huther L, Flachowsky G, Furll M, Grun M (2009) Effect of Zeolite A on rumen fermentation and phosphorus metabolism in dairy cows. Archives of Animal Nutrition 63, 321–336.
Effect of Zeolite A on rumen fermentation and phosphorus metabolism in dairy cows.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD1MXht1WisLjM&md5=486be06d27a64a0faafe95264c185430CAS |

Hemken RW, Harmon RJ, Mann LM (1984) Effect of clinoptilolite on lactating dairy cows fed a diet containing urea as a source of protein. In ‘Zeo-agriculture. Use of natural zeolites in agriculture and aquaculture’. (Eds WG Pond, FA Mumpton) pp. 175–181. (Westview Press: Boulder, CO)

ICAR (2002) ‘International agreement of recording practices, 1–298.’ (International Committee of Animal Recording: Rome)

Johnson MA, Sweeney TF, Muller LD (1988) Effects of feeding synthetic Zeolite A and sodium bicarbonate on milk production, nutrient digestion and rate of digesta passage in dairy cows. Journal of Dairy Science 71, 946–953.
Effects of feeding synthetic Zeolite A and sodium bicarbonate on milk production, nutrient digestion and rate of digesta passage in dairy cows.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DyaL1cXktlOitr4%3D&md5=6d996dc18b8d298663f277731c296c5fCAS |

Katsoulos PD, Panousis N, Roubies N, Christaki E, Arsenos G, Karatzias H (2006) Effects of long-term feeding of a diet supplemented with clinoptilolite to dairy cows on the incidence of ketosis, milk yield and liver function. The Veterinary Record 159, 415–418.
Effects of long-term feeding of a diet supplemented with clinoptilolite to dairy cows on the incidence of ketosis, milk yield and liver function.Crossref | GoogleScholarGoogle Scholar | 1:STN:280:DC%2BD28rmvFCisw%3D%3D&md5=8fc4d9e853d8d05dfd2bb2756bc4e08bCAS |

Kawashima C, Kaneko E, Amaya Montoya C, Matsui M, Yamagishu N, Matsunaga N, Ishii M, Kida K, Miyake YI, Miyamoto A (2006) Relationship between the first ovulation with three weeks postpartum and subsequent ovarian cycles and fertility in high producing dairy cows. The Journal of Reproduction and Development 52, 479–486.
Relationship between the first ovulation with three weeks postpartum and subsequent ovarian cycles and fertility in high producing dairy cows.Crossref | GoogleScholarGoogle Scholar |

Lemir GE, Stalheim PS, Lemir MR, Verdon L, Tieman MJ, Bruning TR (1991) Monitoring reproductive performance of small dairy herds in veterinary practice. The Canadian Veterinary Journal. La Revue Veterinaire Canadienne 32, 551–557.

Lucy MC (2001) Reproductive loss in high-producing dairy cattle: where will it end? Journal of Dairy Science 84, 1277–1293.
Reproductive loss in high-producing dairy cattle: where will it end?Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD3MXktlKhu7Y%3D&md5=f24e8c1e83753d9740c85692158828baCAS |

MacGregor RG, Casey NH (1999) Evaluation of calving interval and calving date as measures of reproductive performance in a beef herd. Livestock Production Science 57, 181–191.
Evaluation of calving interval and calving date as measures of reproductive performance in a beef herd.Crossref | GoogleScholarGoogle Scholar | [II]

McCollum ET, Galyean MI (1983) Effects of clinoptilolite on rumen fermentation, digestion and feedlot performance in beef steers fed high concentrate diets. Journal of Animal Science 56, 517–524.

Mumpton FA, Fishman PH (1977) The application of natural zeolites in animal science and aquaculture. Journal of Animal Science 45, 1188–1203.

Oikonomou G, Arsenos G, Valergakis GE, Tsiaras A, Zygoyiannis D, Banos G (2008) Genetic relationship of body energy and blood metabolites with reproduction in holstein cows. Journal of Dairy Science 91, 4323–4332.

Papaioannou D, Katsoulos PD, Panousis N, Karatzias H (2005) The role of natural and synthetic zeolites as feed additives on the prevention and/or the treatment of certain farm animal diseases. A review. Microporous and Mesoporous Materials 84, 1–3, 161–170.

Shrestha HK, Nakao T, Suzuki T, Higaki T, Akita M (2004) Resumption of postpartum ovarian cyclicity in high-producing Holstein cows. Theriogenology 61, 637–649.
Resumption of postpartum ovarian cyclicity in high-producing Holstein cows.Crossref | GoogleScholarGoogle Scholar |

Sweeney TE, Cerrantes A, Bull LS, Hemken RW (1984) Effect of dietary clinoptilolite on digestion and rumen fermentation in steers. In ‘Zeo-agriculture. Use of natural zeolites in agriculture and aquaculture’. (Eds WG Pond, FA Mumpton) pp. 183–193. (Westview Press: Boulder, CO)

Trckova M, Matlova L, Dvorska L, Pavlik I (2004) Kaolin, bentonite, and zeolites as feed supplements for animals: health advantages and risks. A review. Veterinarni Medicina – UZPI 49, 389–399.