While surveying an AMD impaired waterway, we've had extreme difficulty locating instream upwellings. We can see there are changes in chemistry between point A and point B, so we know there's some input, but there are no visible inputs from the riparian areas. So there is likely some instream input that isn't visible.
I just discovered two years ago on the brook trout stream I fished as a kid and have probably fished from top to bottom well into the hundreds of times that a significant portion of the stream goes subterranean and reemerges quite a way away.
I only figured that out because of the extreme drought at the time. I drove over the stream, and it was bone dry. Just out of morbid curiosity, I decided to hike the dry streambed to see how many pools of water I could find to have some sense of hope that the brook trout population would survive. What I found was the stream simply disappeared. Above it, the stream was low, but still flowing pretty good. Maybe 1/4 its "normal" flow. So in wet years, you wouldn't even notice that 1/4 the volume of the stream is going underground. I never messed with it when it was low or dry and I've seen it go dry before. At least I assumed it was dry.
I took photos of it because it was wild. I'm standing in the dry creekbed looking upstream and you can see the stream just disappears at the silt pile. You can see up under the fallen trees that there's water flowing in the stream.
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Another view. What's left of the flow disappears right at the end of that log in a nondescript hole in the mud/silt.
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Here's just upstream of where it goes underground. Just to show there's a decent volume of water here. In the first photo, the fallen tree at the very top of where the stream is is just to the left of this photo.
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Then I started hiking downstream to see where it came back above ground and found it. It went a good 1/2 a mile downstream before coming back up in the streambed again. It was freezing cold. This is a mountain freestone stream, not some valley stream in limestone geology. It's mostly quartzite, but it has some calcareous shale with interbedded limestone, dolomite, and sandstone in a narrow band crossing the stream perpendicularly.
The point is, I'm intimately familiar with this stream in particular and it took me 30 years to discover it has this feature. It was dumb luck that I discovered it does this. This is a thermal feature. Not a limestone upwelling from some far away spring source, but a thermal feature nonetheless. Again, in a random freestoner. This really made me think about this kind of thing possibly being far more common than we realize. I'd love to thermally profile streams from top to bottom to see if this kind of thing is more common than we know.
