At 12:45am, Friday 22nd November GMT
Within the usual range for this location
Steady, no change from previous measurement at 12:30am, Friday 22nd November GMT
(Daily Average)
Recorded on Tuesday 19th November
Normal flow volume
Increase, 0.50 from previous recording on Monday 18th November
No current or recent warnings.
No current or recent warnings.
No current or recent warnings.
Somerset coast at Porlock Weir
Recent warnings or alerts no longer in force
Somerset coast at Porlock Weir
No current or recent warnings.
Darker blue shaded areas on long term data indicate maximum and minimum levels for the date (you may need to zoom in closer to see them).
Long term data may have gaps where the API data was not available.
Download long term data as csvNote: CSV data will include any outlying values that have been ignored by our graphing system as probably erroneous (eg, because they are ridiculously high compared to the values either side of them). It is your responsibility to filter these out if necessary.
Important! If you are planning to retrieve the csv data automatically, you must read and understand the limitations on the data and its availability.
Please note: Geographic coordinates may reflect the access point for the gauge, and not the precise location in the watercourse that it is taking readings from.
The usual range of the Horner Water at West Luccombe is between 0.04m and 0.65m. It has been between these levels for 90% of the time since monitoring began.
The typical recent level of the Horner Water at West Luccombe over the past 12 months has been between 0.05m and 0.18m. It has been between these levels for at least 150 days in the past year.
The highest level ever recorded at the Horner Water at West Luccombe is 1.13m, reached on Monday 30th October 2000 at 4:45am.
Note that this data may not take account of recent measurements, as we wait until a level has been verified by the Environment Agency before adding it to our records.
There are no other monitoring stations on the Horner Water
Monitoring locations on nearby rivers