County Level Estimates: Click to Review
Estimates for Alamance
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Alamance. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Alexander
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Alexander. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Alleghany
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Alleghany. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Anson
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Anson. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Ashe
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Ashe. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Avery
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Avery. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Beaufort
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Beaufort. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Bertie
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Bertie. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Bladen
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Bladen. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Brunswick
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Brunswick. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Buncombe
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Buncombe. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Burke
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Burke. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Cabarrus
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Cabarrus. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Caldwell
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Caldwell. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Camden
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Camden. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Carteret
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Carteret. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Caswell
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Caswell. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Catawba
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Catawba. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Chatham
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Chatham. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Cherokee
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Cherokee. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Chowan
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Chowan. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Clay
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Clay. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Cleveland
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Cleveland. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Columbus
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Columbus. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Craven
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Craven. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Cumberland
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Cumberland. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Currituck
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Currituck. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Dare
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Dare. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Davidson
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Davidson. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Davie
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Davie. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Duplin
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Duplin. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Durham
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Durham. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Edgecombe
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Edgecombe. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Forsyth
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Forsyth. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Franklin
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Franklin. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Gaston
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Gaston. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Gates
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Gates. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Graham
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Graham. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Granville
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Granville. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Greene
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Greene. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Guilford
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Guilford. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Halifax
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Halifax. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Harnett
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Harnett. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Haywood
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Haywood. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Henderson
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Henderson. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Hertford
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Hertford. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Hoke
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Hoke. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Hyde
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Hyde. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Iredell
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Iredell. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Jackson
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Jackson. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Johnston
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Johnston. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Jones
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Jones. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Lee
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Lee. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Lenoir
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Lenoir. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Lincoln
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Lincoln. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Macon
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Macon. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Madison
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Madison. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Martin
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Martin. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for McDowell
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in McDowell. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Mecklenburg
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Mecklenburg. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Mitchell
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Mitchell. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Montgomery
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Montgomery. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Moore
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Moore. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Nash
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Nash. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for New Hanover
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in New Hanover. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Northampton
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Northampton. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Onslow
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Onslow. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Pamlico
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Pamlico. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Pasquotank
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Pasquotank. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Pender
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Pender. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Perquimans
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Perquimans. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Person
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Person. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Pitt
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Pitt. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Polk
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Polk. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Randolph
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Randolph. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Richmond
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Richmond. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Robeson
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Robeson. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Rockingham
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Rockingham. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Rowan
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Rowan. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Rutherford
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Rutherford. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Sampson
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Sampson. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Scotland
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Scotland. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Stanly
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Stanly. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Stokes
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Stokes. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Surry
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Surry. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Swain
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Swain. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Transylvania
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Transylvania. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Tyrrell
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Tyrrell. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Union
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Union. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Vance
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Vance. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Wake
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Wake. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Warren
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Warren. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Washington
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Washington. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Watauga
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Watauga. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Wayne
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Wayne. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Wilkes
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Wilkes. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Wilson
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Wilson. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Yadkin
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Yadkin. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).
Estimates for Yancey
Identifying changes in the reproduction number, rate of spread, and case count during the course of the COVID-19 outbreak while accounting for potential biases due to delays in case reporting and testing availability in Yancey. The results are influenced by changes in testing availability, practices, and delays (see Methods or and the [paper](https://wellcomeopenresearch.org/articles/5-112/) on which this methodology is based for further explanation).