Rio San Jose


The Rio San Jose is a tributary of the Rio Puerco in the U.S. state of New Mexico.

Course

The Rio San Jose headwaters are in the Zuni Mountains, near the continental divide in Cibola County, where it is known as Bluewater Creek; about 400 feet of the course is in McKinley County. Bluewater Creek is dammed to form Bluewater Lake, with a capacity of. The name Rio San Jose is used starting from the confluence of Bluewater Creek and Mitchell Draw near Bluewater Village. Entering Valencia County, it flows southeast, through Grants, then turning east near McCartys, flowing through the Acoma Indian Reservation and Laguna Pueblo. The remains of an ancient dam constructed by the Laguna people sometime between 1370–1750 AD is situated within Laguna Pueblo. Below Mesita the river turns southeast again, flowing through a narrow canyon before joining the Rio Puerco in Bernalillo County.
The entire course of the river below Bluewater Creek is roughly paralleled by the BNSF Railway tracks. Between Bluewater Village and Mesita the river valley provides the route for old U.S. Route 66 and I-40.

Hydrology

The water level and streamflow of the Rio San Jose has been measured at a number of sites in Cibola County, New Mexico. Stream gauges have been operated by the USGS near Laguna, Correo, and at Acoma Pueblo, near Grants.
The gauge at Acoma Pueblo has a record that commenced in 1937, and is the only one still active. It measures flow from a contributing area of, from a larger drainage basin of. The mean flow between 1937 and 2016 was, with the lowest daily flow recorded in July 2014 at.
The highest river level recorded occurred in September 1963 with a height of through the gauge, giving a corresponding flow of, although this peak flow was affected by diversion or regulation.
Since the 1870s the flow of the upper river has been substantially modified by demands for irrigation, groundwater abstraction and a dam on the Bluewater Creek. A report in 1982 showed that the natural flow was estimated to be between and, as opposed to the measured mean flow of.