Indian Ocean migrations: Madagascar lemurs, Maldive dragonflies
New theory on why male, female lemurs same size, matriarchal
Rice University link
Why are male and female lemurs the same size?
In most primate species, males have evolved to be much larger than females. Size is an advantage for males that guard females to keep other males from mating with them, and evolutionary biologists have long wondered why lemurs evolved differently. Some theories have suggested that environment played a role or that lemur social development was altered due to the extinction of predatory birds.
"Scientifically, this is quite a big question that researchers have debated for over 20 years," said Dunham, assistant professor of ecology and evolutionary biology. "I actually started doing research on lemurs as an undergraduate, working in Ranomafana (National Park in Madgascar), and the question about size monomorphism has bugged me since then."
In a paper featured on the cover of this month's Journal of Evolutionary Biology, Dunham offers one of the first new theories on lemur monomorphism in more than a decade. After an exhaustive review of the observational work done on lemurs, Dunham came to the conclusion that male lemurs do guard their mates, just like other primates. But unlike gorillas and other primates that fight for mating rights with females, male lemurs have evolved to passively guard their mates.
They do this by depositing a solid plug inside the female's reproductive tract just as they finish mating. The plug is deposited as a liquid protein but quickly hardens and stays in place for a day or two. Since many female lemurs are sexually responsive to males for only one day out of the entire year, the plug serves the purpose of preventing other males from mating with the female, while also freeing the male to mate with other females during the brief time they are available.
"If the female has a short receptivity period, as most lemurs do, then we hypothesize that this is likely to be an advantageous strategy," said Dunham, who co-authored the paper with Rice evolutionary biologist Volker Rudolf.
To test their hypothesis, Dunham and Rudolf examined 62 primate species and found that copulatory plugs were most likely to occur in species where female sexual receptivity was very brief and where males and females were the same size. This was true both for lemur species and for a few other species, like South American squirrel monkeys.
"Our idea needs further testing because it's new, but it's more parsimonious than some of the old theories, and we're very excited about looking into it further," Dunham said. "We've made some explicit predictions about the conditions where this strategy should be favored, so there are plenty of ways it can be tested." Dunham said she hopes to travel to Madagascar within the next year to begin gathering data for a new project that will examine the impacts of climate change on lemur populations.
Lemurs evolved on the African island in isolation from other primates for 65 million years, and they are well-known for having odd traits not found in other primates. For example, some lemurs hibernate, storing fat in their tails, and all have toothcombs -- teeth that are perfectly shaped for grooming. Lemurs also differ from other primates in another key respect that has also stymied primatologists for years: The females are usually the dominant sex.
Dunham's investigations into the long-standing mystery of female dominance among lemurs led her to put forward another important theory last year. Published in the journal Animal Behavior, the theory suggests that female lemurs tend to dominate males because the females do all of the work in rearing the young and therefore have more will to fight and win.
"Game theory predicts that when the fighting abilities of two contestants are comparable, the outcome will depend upon the value that each contestant places on the resources they are fighting over," she said. "In this case, the females clearly have more at stake, but the only reason the females are in a position to compete for dominance is because they're roughly the same size and strength as the males."
[A parallel to Bonobo chimps, where female-female relationships are tight. Both lemurs and bonobos are likely derived from an ancestral pregnant female isolated by water from the normal society producing a matriarchal society. This has happened in human populations as well.]
Dragons fly from Asia to Africa and back link
Matt Walker, Editor, Earth News
Globe skimmers (Pantala flavescens)
Globe skimmers rest up
Every year, millions of dragonflies fly thousands of kilometres across the sea from southern India to Africa. So says a biologist in the Maldives, who claims to have discovered the longest migration of any insect. If confirmed, the mass exodus would be the first known insect migration across open ocean water. It would also dwarf the famous trip taken each year by Monarch butterflies, which fly just half the distance across the Americas. Biologist Charles Anderson has published details of the mass migration in the Journal of Tropical Ecology. Each year, millions of dragonflies arrive on the Maldive Islands, an event which is well known to people living there.
"But no-one I have spoken to knew where they came from," says Anderson, an independent biologist who usually works with organisations such as the Maldivian Marine Research Centre to survey marine life around the islands.
Their appearance is especially peculiar because the 1200 islands that make up the Maldives lie 500 to 1000km from the mainland of southern India, and all are coral cays with almost no surface freshwater, which dragonflies need to complete their lifecycle. Anderson noticed the dragonflies after he first arrived in the Maldives in 1983. He started keeping detailed records each year from 1996 and now collates data collected by local observers at other localities in the Maldives, in India and on vessels at sea.
When Anderson compared these observations with those made of dragonflies appearing in southern India, he found a clear progression of arrival dates from north to south, with dragonflies arriving first in southern India, then in the Republic of Maldives' capital Male, and then on more southern atolls.
Each year, dragonflies first appear in Male between 4 and 23 October, with a mean arrival date of 21 October. Dragonfly numbers peak in November and December, before the insects then disappear once more. The insects arrive in waves, with each staying for no more than a few days.
Over 98% of the dragonflies recorded on the islands are Globe skimmers (Pantala flavescens), but Pale-spotted emperors (Anax guttatus), Vagrant emperors (A. ephippiger), Twisters (Tholymis tillarga) and Blue perchers (Diplacodes trivialis) also appear in some numbers. The dragonflies then reappear between April and June.
The dragonflies are clearly migrating from India across the open sea to the Maldives, says Anderson. That by itself is fairly amazing, as it involves a journey of 600 to 800km across the ocean," he says.
Quite how they do it was a bit of a mystery, as in October at least they appear to be flying against the prevailing winds. However, in October, and continuing into November and December, a weather system called the Inter-tropical Convergence Zone moves southwards over the Maldives. Ahead of the ITCZ the wind blows towards India, but above and behind it the winds blow from India. So it seems that the dragonflies are able to reach Maldives by flying on these winds at altitude above 1000m.
Globe skimmers are renowned for their ability to fly long-distances They can fly up to 6300m high, the highest of any dragonfly species With a tailwind of 10m per second, a dragonfly could cross from India to Male in 24 hours Maldivians consider the dragonflies' arrival to be a harbinger of the north-east monsoon But that is not the end of the animals' epic adventure. "As there is no freshwater in Maldives for dragonflies, what are they doing here?" asks Anderson.
"I have also deduced that they are flying all the way across the western Indian Ocean to East Africa." Anderson has gathered a wealth of circumstantial evidence to back his claim. Large numbers of dragonflies also start appearing in the northern Seychelles, some 2700km from India, in November, and then in Aldabra in the Seychelles, 3800km from India, in December. That matches the slow southerly movement of the Inter-tropical Convergence Zone weather system, behind which winds blow steadily from India to East Africa.
It is also known that Globe skimmers appear in large numbers through eastern and southern Africa. In Uganda, they appear twice each year in March or April and again in September, while further south in Tanzania and Mozambique they appear in December and January. That strongly suggest that the dragonflies take advantage of the moving weather systems and monsoon rains to complete an epic migration from southern India to east and southern Africa, and then likely back again, a round trip of 14,000 to 18,000km.
"The species involved breeds in temporary rainwater pools. So it is following the rains, taking sequential advantage of the monsoon rains of India, the short rains of East Africa, the summer rains of southern Africa, the long rains of East Africa, and then back to India for the next monsoon," says Anderson.
"It may seem remarkable that such a massive migration has gone unnoticed until now. But this just illustrates how little we still know about the natural world." The monarch butterfly is often cited as having the longest migration of any insect, covering around 7000km in an annual round trip from Mexico to southern Canada.
On average, it takes four generations of butterflies to complete the journey.
Anderson believes that the dragonflies survive the ocean flights by gliding on the winds, feeding on other small insects. They too, take four generations to make the full round trip each year. He says the migratory paths of a number of insect-eating bird species, including cuckoos, nightjars, falcons and bee-eaters, follow that of the dragonfly migration, from southern India to their wintering grounds in Africa. That suggests the birds feed on the dragonflies as they travel.
"They [fly] at the same time and altitudes as the dragonflies. And what has not been realised before is that all are medium-sized birds that eat insects, insects the size of dragonflies," he says. "There are earlier records of swarms of Globe skimmers flying out to sea, and at sea," Anderson continues. "But it was always assumed that those dragonflies were doomed. Which says rather more about our earth-bound lack of imagination than it does about the globe skimmers' extraordinary flying abilities."
Friday, July 3, 2009
The African dwarf frog, a member of the Pipidae, is an aquatic animal living its life entirely underwater, but needs to rise to the surface to breathe atmospheric air because they have lungs and not gills. They "breathe" water in through their skin. They are fairly small in size and don’t weigh more than a few ounces. (Wikipedia)
They produce vocal clicks and trills, rather than the more typical croaks of more terrestrial/arboreal frogs, due to a lack of long extensible tongue and throat sac.
Jamaican tree frog lacks vocal sac yet vocalizes
"Hyla marianae lacks a vocal sac" yet calls during mating season in arboreal wet bromeliads.
Treefrog without throat sac
So we see a precise parallel regarding water & foraging:
benthic foraging frogs & humans lack throat sac, lack tail
surface foraging frogs & large apes have throat sac, lack tail
arboreal foraging frogs & canopy gibbons lack throat sac, lack tail
benthic foraging salamanders & monkeys lack throat sac, have tail
arboreal foraging salamanders & *monkeys lack throat sac, have tail
*atellid howler monkey.
all wading/swimming/diving monkeys have medium or long tails.
Clicking for echolocation by dolphins and humans
Frog hydrodynamic streamlining:
Not linear in their resting position, no, but well streamlined and linear at
times when leaping and swimming.
The frogs legs can spread wide, then clap together while pushing against the water.
Some frogs/toads walk or gallop briefly rather than hop. Many treefrogs mostly climb on 4 limbs, boreal toads tend to walk more than hop on the ground. The natterjack ground gallops briefly on all four, and burrows into drying salt-mires with forelimbs initially and then rear limbs.
This parallels primates/hominoids again, the change from ancestral long-tail locomotion (monkeys/salamanders) to non-tail hydrostatic foraging results in modified locomotion (leaping/swinging) which in some species returns to near-ancestral qpal locomotion in some species (natterjack/knucklewalking apes). The only missing parallel remaining is the possible frog which developed bipedal gait, so far not found in nature. Possibly long-tailed proto-archosaurs (ancestors of crocs, T rex, birds) developed from a coastal arboreal salamandrid, which in the avian line lost the long tail after branch vertical perching and reversed toe evolved.