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Reproduction, Fertility and Development Reproduction, Fertility and Development Society
Vertebrate reproductive science and technology
RESEARCH ARTICLE

138 EARLY EMBRYO MORTALITY IN BUFFALO (BUBALUS BUBALIS) DURING THE SPRING PERIOD

G. Neglia A , C. Grassi A , A. Prandi B , G. Galiero C , E. De Carlo C , L. Zicarelli A and G. Campanile A
+ Author Affiliations
- Author Affiliations

A DISCIZIA, Federico II University, Naples, Italy. email: neglia@unina.it;

B DSA, Udine University, Italy;

C IZSM, Salerno section, Italy.

Reproduction, Fertility and Development 16(2) 191-191 https://doi.org/10.1071/RDv16n1Ab138
Submitted: 1 August 2003  Accepted: 1 October 2003   Published: 2 January 2004

Abstract

Embryo development is linked to several factors, such as intrinsic defects within the embryo, an inadequate maternal environment or failure of maternal response to embryonic signals. Reproductive seasonality in buffalo species (Bubalus bubalis) is responsible for the lower reliability of the pregnancy diagnosis by progesterone assay in spring, probably due to the high incidence of early embryo mortality (EEM) for hormonal reasons (Campanile et al., 1989; Proc. 2th National Meeting ‘Studio dell’efficienza riproduttiva degli animali di interesse zootecnico’: 51–57). The aim of the study was to identify the causes of EEM in buffaloes inseminated during the spring period. Italian Mediterranean Buffalo cows (n = 209) in a good state of health were synchronized using the Ovsynch-TAI Program (Pursley et al., 1995 Theriogenology 44, 915–923) and inseminated 16 and 40 hours after the second administration of GnRH. Artificial inseminations were performed by the same technician. Ten to 20 days after the first insemination two blood samples were collected from each animal for assessing P4 levels by RIA. Days 24 and 40 after the first insemination, pregnancy diagnosis was assessed by rectal ultrasonography (Aloka SSD-500) with a 5 MHz sector scanner. In animals with EEM a uterine flushing was carried out and recovered fluid was analyzed for the principal infectious agents. Microbiological analyses were carried out according to Quinn et al. (1994 Clinical Veterinary Microbiology, Wolfe Publishing, Mosby, Europe) and a PCR analysis was performed only for Bubaline Herpes Virus (BuHV1), Toxoplasma and Neospora. Statistical analysis was assessed by Student’s t-test. The incidence of cyclic buffaloes after synchronization treatment (94%) and pregnancy rate at 40 days (34.4%) were similar to those reported in a previous study (Neglia et al., 2003 Theriogenology 60, 125–133). EEM between 24 and 40 days was 45% and only in 9 buffaloes (15.3%), these results correlated with the presence of infectious agents (Streptococcus spp. group B and G, Bacillus licheniformis, Proteus mirabilis, Staphylococcus spp.). P4 levels on Day 10 were higher (P < 0.05) in pregnant (P) buffaloes than in those with EEM. On Day 20, P4 levels were higher (P < 0.01) in P buffaloes than in those with EEM and those not pregnant. It is hypothesized that the reduced activity of hypophysis, correlated with an increase in hours of light, may be responsible for decreased P4 concentrations and EEM in buffalo.


Table 1 
P4 blood levels in pregnant (P) and non pregnant (NP) buffaloes and in buffaloes with EEM 10 and 20 days after insemination
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