We　report　the　experimental　observation　of　intensity　noise　correlation　between　six-wave　mixing　(SWM),　fluorescence　and　probe　transmission　signal　in　a　coherently　prepared　Rydberg　atomic　ensemble.　With　the　assistance　of　the　electromagnetically　induced　transparency　(EIT)　technique,　the　Rydberg　SWM　is　generated　with　high　efficiency.　Then　the　correlation　between　the　probe　transmission　and　SWM,　the　anti-correlation　between　the　probe　and　fluorescence,　and　the　anti-correlation　between　SWM　and　fluorescence　occur,　with　these　being　caused　by　the　enhanced　dispersion　and　nonlinearity　in　the　Rydberg-EIT　medium.　Such　intensity　correlation　can　be　effectively　controlled　by　the　strong　Rydberg-dressing　effect.　This　investigation　can　potentially　contribute　to　the　further　study　of　multi-field　quantum　correlations　and　anti-correlations　via　atomic　spin　coherence.