Background: Rift Valley fever (RVF) is a vector-borne zoonotic disease that is caused by phlebovirus and transmitted primarily by aedes mosquitoes. RVF outbreaks have led to significant effects to human and animal health in the Horn of Africa and Arabian Peninsula. The economic impact of 1997-98, 2000 and 2006-2007 outbreaks due to massive livestock abortions, deaths, acute human illness and deaths was estimated at over $ 500 million. We hypothesize there is consistent virus circulation in RVF endemic areas of Northern Kenya and RVF epidemics have potential associations with environmental and climatic parameters. The objective of this study was to detect circulation of RVFV in goats, sheep and cattle in Garissa County, Kenya during the inter-epidemic period (IEP). Methodology: We performed a cross-sectional surveillance of ruminants in RVF high risk areas of Garissa County, Kenya. Periodic blood sampling of sheep, goats and cattle was done in March 2012 and July 2013. Serological analysis for total antiRVF antibodies for 370 ruminants was investigated using a multispecies competitive Enzyme-Linked Immunosorbent Assay (ELISA) kit. Host risk factors for RVFV seropositivity were examined by both univariable analysis and mixed effects logistic regression model. Unadjusted odds ratios (OR) for seropositivity were estimated using log linear regression model. Results: The overall seroprevalence for the 370 ruminants was 27.6%. Sheep (n= 87) and cattle (n= 12) had higher prevalence 32.2% (CI [20.6 -31]) and 33.3% (CI [6.7 -60]) respectively than goats (n = 271), 25.8% (CI [22.4 – 42]). Seropostivity in males was 31.8% (CI [22.2-31.8]) higher than 27% (CI [18.1-45.6]) in females. There was an increased likelihood of higher seropositivity in old (OR 18.24, CI [5.26 -116.4]), p < 0.0001) than young animals. Conclusions: This study demonstrates the widespread serological evidence and potential RVFV circulation among domestic ruminants in Garissa district thus indicative of an endemic reservoir of infection. There is need for increased preparedness and response in RVF endemic areas by conducting animal-human syndromic sero-surveillance as part of one health early warning system.