Nice and clear, but it does make it somewhat obvious that the warning should say that it will disrupt connections up to 100Mbps.  An option of testing all pairs on a connection below 1Gbps should be available, even if pairs 3 and 4 should show open.  If they came back shorter or crossed then you'd know that's why the device hasn't negotiated a higher speed.

Thanks @Chris_Skees and @cmr 

I'm adding my 2 cents here:

1st cent) A connection disruption is inevitable in such cases: either the station NIC or bad cabling will cause it as it did before or you and the end-user will as part of the troubleshooting. I prefer the later as it gets the user closer to a solution.

So, I wouldn't discard a poorly written/implemented ethernet device driver at the OS layer on the user's workstation. I.e.: maybe NIC driver is misconfigured and turning ethernet off when OS is entering energy saving modes. I know its unlikely since it's all new stations and that's the only one having issues. In addition, this tshoot approach would be reaching too far outside support scope. Nevertheless, it's worthy investigating.

In this sense, this Meraki article is also relevant. It mainly talks about duplex, but speed and duplex are tied to Ethernet auto-negotiation (802.3u).

In conclusion, before going for the cabling testing feature and/or swapping cable for a new one, I would leave Meraki device port with speed and duplex auto-negotiation turned on while configuring the station's OS to don't turn off NIC when saving energy as well as NIC manual contig to 1000Mbps full-duplex (no auto-negotiation). Since this 1000Mbps full-duplex is the preferred negotiation at Meraki device, we would see the port connecting at ideal speed and duplex and no more disruptions. If we don't see this result, then we would have a bad cable.

This brings us to my 2nd cent.

2nd cent) Going deeper into this rabbit hole: (far fetched tshoot approach). If the user is more of a tech person, maybe you could test using a Loopback plug tool connected to the port you're investigating and run Meraki's cable test feature. This would isolate bad cable and NIC driver.

Ideally, those cable testing features should be used with a loop tool, otherwise it will cause interruptions on whatever is connected to the port where you run this test. Those loop tools are generally cheap but quite effective. Check out this one (I swear I'm not affiliated or have any kind of connection to those guys - it's just a google search result)!

Going further deeper: I come from older switch and networking devices but the fundamentals are valid.

So check out this Cisco Document: Troubleshooting Catalyst Switches to NIC Compatibility Issues (Old but Gold).😎

In our case here, we pay attention to these three sections: