MIL-OSI Global: Marine life typically thrives in the topics – so why do whales prefer the poles?

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Source: The Conversation – UK – By Sarah Marley, Lecturer in Marine Vertebrate Zoology, University of Portsmouth

Life in the sea isn’t easy. Talk to most people about the ocean and they are likely to imagine a tropical scene with a stretch of golden sand and warm, clear water. The reality is often quite different – the marine environment can be a surprisingly cold place.

Water conducts heat far more effectively than air, which means that submerged animals quickly lose their body heat. It’s also harder to warm up again than on dry land, where animals often have the option of basking in the sun or on hot rocks. Finally, many aquatic animals use gills to get oxygen – great for breathing, but essentially another source of heat loss due to all the of water flowing across them and sucking away warmth.

All this contributes to making it much harder for aquatic animals to regulate their body temperature. So surely it would make sense to find more marine animals in warmer waters rather than in colder ones?

Not necessarily. A new study published in Science by a team of US researchers led by John Grady reports higher levels of marine biodiversity in polar waters than tropical ones – but only for some types of animal.

This goes against the longstanding idea that species richness is always highest in the tropics. The theory was that tropical waters provide a less thermally-extreme environment than polar ones – compare, for example, the Caribbean with Antarctica. Tropical areas often provide greater stability and productivity, giving benefits such as a predictable environment and plenty of food. As a result, scientists typically report high levels of biodiversity in warmer waters, with a multitude of species making the most of these favourable areas.

Tropical seas usually have the greatest variety of species. Brian Kenney / shutterstock

However, in this latest research, Grady and colleagues argue that rather than grouping all marine species together, we should instead consider them separately based on how they regulate their body temperature.

There are two main types of “thermal strategy”. Some animals are not able to generate enough heat to warm their own body tissues, so their internal temperature is determined by conditions outside their bodies. These animals are known as “ectotherms”, and typically include reptiles, amphibians, fish (including most sharks), and invertebrates. In comparison “endotherms”, including humans, other mammals and birds, warm their body tissues by having high metabolisms to burn off food, which generates heat inside their bodies.

These categories are similar to “cold blooded” and “warm blooded”, but more scientifically accurate. An ectothermic lizard might be considered cold blooded on a cool evening, but (since their body temperature matches the environment) it rapidly becomes warm on a hot, sunny day. To avoid this kind of confusion, scientists prefer to refer to the thermal strategy, rather than actual blood temperature.

Lemon sharks (left) are ectotherms. But orcas are mammals, and thus endothermic. Fiona Ayerst / vladsilver / shutterstock

When marine species are separated into these categories of “ectotherm” and “endotherm”, Grady and colleagues show a pattern of marine biodiversity that both supports and contradicts the previous theory. The reptiles, fish and invertebrates rely on their environment for heat, so follow the established prediction of being generally found in warmer climates with particularly high levels of species diversity in the tropics.

But the heightened metabolism and body temperature of the endotherms opens up new possibilities. Unrestrained by the need for a warm environment, birds and mammals can successfully exploit colder habitats. They are also able to move more quickly in cold water than their ectothermic prey, which can become sluggish at cooler temperatures.

Consequently, endotherms seem to buck the expected trend and instead show higher species richness in polar waters. As the new study points out, seals and their relatives are “virtually absent from tropical waters” yet are common nearer the poles, while of all 89 species of cetacean (whales, dolphins and porpoises) only dolphins have “truly diversified in the warm tropics”.

Among marine predators, ectothermic sharks and fish dominate in tropical coastal waters (blue), while birds and mammals dominate cold waters and open oceans (red).
Grady et al / Science

This seems to make sense. But, of course, there is more to it than thermal strategy. Apart from a considerable difference in temperature, the tropics and poles also differ in other ways. For example, differences in levels of dissolved oxygen, nutrients, algae growth, light, and so on. As a a result, some areas and species are the “exception to the rule”. Regardless, categorisation by thermal strategy does show some interesting patterns of species diversity, and accounts for animals like whales and seals largely avoiding the warmest waters.

But this advantage of environmental independence comes at a price. To maintain their heat-generating metabolism, endotherms have a continuous need for lots of high-quality food. For instance an ectothermic lemon shark has to eat about 2% of it’s body weight each day, whereas an endothermic common dolphin might have to eat 12% or more. To be fair, there are a lot of factors to consider beyond thermal strategy, but that’s still quite a difference.

In a changing climate, the energy requirements of endotherms could spell trouble. With the world warming fastest towards the poles, many scientists predict that polar species will face the biggest struggle as their habitats are dramatically altered, and they cannot retreat any further north or south to seek cooler areas. As the oceans warm, perhaps the high metabolisms and body temperatures of marine mammals will become a burden rather than a benefit.

ref. Marine life typically thrives in the topics – so why do whales prefer the poles? –

MIL OSI – Global Reports

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