Aluminum and Its Uses
The metal element aluminum(Al) is used extensively in packaging, transportation, water treatment, cooking utensils, and many other applications.
What Are the Health Effects of Aluminum?The most common health effects for people exposed to aluminum are neurotoxicity and respiratory toxicity. Aluminum may also have detrimental effects on reproduction and development (ATSDR, 2006).
What Is the Aluminum Baseline?We measured aluminum (Al) levels in 298 sperm whales. Aluminum was present at detectable levels in all but one whale. Detectable levels ranged from 6.9 to 1,870 μg Al/g tissue with a global average level equal to 132.8 +/- 10.6 μg/g (ppm). Considered by ocean, the average Pacific Ocean aluminum level in sperm whale skin was 102 +/- 12.9 μg/g; the average Indian Ocean aluminum level was 153.4 +/- 15.6 μg/g; and the average Atlantic Ocean aluminum level was 161 +/- 29.7 μg/g.
Aluminum concentrations were higher in some ocean regions than in others (Figure 4). The highest average aluminum level was found in sperm whales sampled during the Indian Ocean Crossing (478 +/- 296 μg/g). The lowest average aluminum level (23.1 μg/g) was found in a whale from Kiribati; however, that result came from just one whale. The lowest average aluminum level for a group of whales was found in whales off the coast of Sri Lanka in the Indian Ocean (36.5 +/- 1.5 μg/g).
Considering aluminum levels by individual whales, the highest aluminum level (1,870 μg/g) was found in a whale from the Mediterranean Sea. The lowest aluminum level (6.9 μg/g) was found in a whale from the waters around the Cocos Islands in the Indian Ocean
How Do Our Aluminum Levels Compare with Those in Studies of Other ‘Large Whales’?We were able to locate only one study of aluminum in other ‘Large Whales.’ That report found an average liver aluminum level of 4.2 μg/g in gray whales from the Pacific Ocean, based on five individual whales (Tilbury et al., 2002). That level is much lower than our global average of 132.8 μg/g, based on 298 whales. It is also much lower than any of the averages we found in our skin biopsies (Figure 4). As mentioned above, our lowest average aluminum level was 23.1 μg/g from a whale from waters near Kiribati in the Pacific Ocean. The lowest average aluminum level for a group of whales was 36.5 μg/g found for whales from the Galapagos in the Pacific Ocean. The lowest individual aluminum skin level we found
was 6.9 μg/g in a whale from the Cocos area in the Indian Ocean, which is closer to, but still not lower than, the level noted in this previous report. The one whale with a nondetectable measurement had a detection limit greater than 6.9 µg/g which leaves the Cocos whale still the lowest whale. The differences between our data and the published levels most likely reflect differences between liver and skin accumulation and in regional exposures to aluminum. Some may also reflect species differences.
How Do Our Aluminum Levels Compare with Those in Studies of Dolphins, Porpoises, and Other Marine Mammals?We were able to locate only one study of aluminum in skin tissue from dolphins, porpoises, and other marine
mammals. That study reported average skin aluminum levels of 2.52 and 0.93 µg/g (data converted from dry weight to wet weight assuming 70% moisture) for two groups of bottlenose dolphins off the Coast of the United States in the Atlantic Ocean (Stavros et al., 2007). These levels are much lower than what we observed in the Atlantic Ocean off the Canary Islands (Figure 4), and thus, may reflect local differences.
We located two studies of aluminum in liver tissue from dolphins, porpoises, and other marine mammals. One report found a range of 5 to 157 μg/g from the dugong (Dugong dugon) in the Pacific Ocean (Haynes et al., 2005). Those levels are consistent with the levels we found in the Pacific Ocean regions, which ranged from 9.16 to 223.29 μg/g wet weight. The second study, from the Wise Laboratory, reported average liver levels of 1.02 and 1.23 μg/g in Steller sea lion pups from the western and eastern Alaska populations, respectively (Holmes et al., 2008). The average level is much lower than what we observed (Figure 4) and may reflect a difference in age (adults versus pups) and diet (e.g., dugons are vegetarians).
What Do These Aluminum Levels Mean?First and foremost, these levels indicate that sperm whales are exposed to aluminum. Second, they indicate that aluminum levels are high. In fact, they were much higher than those of any other toxic metal in every region in which we measured them. Third, the data indicate that aluminum levels are more significant in the Atlantic and Indian Oceans and in the Mediterranean Sea than in the Pacific Ocean. Finally, the data indicate that aluminum can and has reached even the remotest ocean locations, though we need to conduct more work to determine whether it is carried to these regions by air, by water, or only within the whales’ tissues.
It is difficult to assess how high the internal body aluminum levels actually are because these levels were measured in skin tissue and it is uncertain how skin levels reflect levels elsewhere in the body. Skin tissue levels are usually lower than those in other vital organs such as the liver, kidneys, and lungs; thus, the expectation is that the aluminum level inside the body is probably much higher. The key aluminum levels will be in those organs susceptible to toxicity from exposure to it. It is also difficult to assess whether the aluminum levels we observed are toxic. Aluminum does not serve any known normal function in mammalian physiology. Therefore, its presence in a whale’s body cannot be considered positive.
Aluminum is at best neutral and without effect, and at worst leads to some level of toxicity. The fact that aluminum can induce reproductive and developmental effects raises concerns about its effects on whale reproduction. The fact that levels may be higher in the lung tissue raises concerns about its effects on whale respiration. However, we need to investigatethese concerns more fully before we can draw any firm conclusions. We are of course doing just that. Some of our ongoing and future work is aimed at understanding how skin aluminum levels relate to levels in internal organs. We are also continuing to work to try to understand how aluminum causes toxicity in whales and humans and how much exposure is too much. The full report discusses where the aluminum may be coming from.