Aluminum (Al) , a widely spread metal, is a non-essential element for most animals in the earth. Normally, aluminum solubility is low in neutral soil. But human activities, like the use of fertilizer, or acidic rain cause aluminum ion being release from the soil, which affect soil organisms such as earthworms due to its neurotoxicity. In this study, earthworms (Eisenia andrei) were exposed to aluminum ion (Al3+) to investigate its neurotoxicity. The results showed the cytoplasms in aluminum-exposed earthworms were heavily stained by Walton staining but not in the control group. In the brain, the proportion of stained area in aluminum-exposed group was significantly increased. In the ventral nerve cord, however, the increasing was not significant. The results of H&E staining significantly showed that large eosinophilic regions appeared both brain and the ventral nerve cord of the aluminum-exposed earthworms, but not in control earthworms. Furthermore, the aluminum accumulation region and the eosinophilic region showed similar patterns. Also, the Congo red staining result showed similar pattern to the aluminum accumulation region and the eosinophilic region. These results imply that the accumulation of aluminum may result in amyloidosis-like symptom. To realize the possible mechanism of aluminum intoxication, calcium ion (Ca2+), ferric ion (Fe3+) or four antioxidants (EUK134, rosmarinic acid, catechin and curcumin) were simultaneously used with aluminum to treat the earthworms. Calcium ion, but not ferric ion, EUK134, rosmarinic, catechin or curcumin could increase the survival time of the aluminum treated earthworms. The presence of lanthanum ion (La3+), a calcium channel blocker, did not significantly increase the survival time. These results inferred that aluminum entered earthworm body was not associated with calcium channel, but might be absorbed by the paracellular route.