Arthropodcommunitiesinthetropicsareincreasinglyimpactedbyrapidchangesinlanduse.Becausespeciesshowingdistinctseasonalpatternsofactivityarethoughttobeat higher risk of climate-related extirpation, global warming is generally considered alowerthreattoarthropodbiodiversityinthetropicsthanintemperateregions.Toexam-ine changes associated with land use and weather variables in tropical arthropod com-munities, we deployed Malaise traps at three major anthropogenic forests (secondaryreserve forest, oil palm forest, and urban ornamental forest (UOF)) in PeninsularMalaysiaandcollectedarthropodscontinuouslyfor12months.Weusedmetabarcodingprotocolstocharacterizethediversitywithinweeklysamples.Wefoundthatchangesinthecompositionofarthropodcommunitiesweresignificantlyassociatedwithmaximumtemperature in all the three forests, but shifts were reversed in the UOF compared withtheotherforests.ThissuggestsarthropodsinforestsinPeninsularMalaysiafaceadoublethreat:communityshiftsandbiodiversitylossduetoexploitationanddisturbanceoffor-ests which consequently putspecies at further riskrelated to global warming.We high-light the positive feedback mechanism of land useand temperature, which pose threatstothearthropodcommunitiesandfurtherimplicatesecosystemfunctioningandhumanwell-being. Consequently, conservation and mitigation plans are urgently needed.