About Me

My photo
Canberra-based naturalist, conservationist, educator since 1980. I’m passionate about the natural world (especially the southern hemisphere), and trying to understand it and to share such understandings. To that aim I’ve written several books (most recently 'Birds in Their Habitats' and 'Australian Bird Names; origins and meanings'), run tours all over Australia, and for the last decade to South America, done a lot of ABC radio work, chaired a government environmental advisory committee and taught many adult education classes – and of course presented this blog, since 2012. I am the recipient of the Australian Natural History Medallion, the Australian Plants Award and most recently a Medal of the Order of Australia for ‘services to conservation and the environment’. I live happily in suburban Duffy with my partner Louise surrounded by a dense native garden and lots of birds.

Thursday 31 May 2018

Spreading the Seeds; animals 'helping' plants

I was reading an intriguing story yesterday - which I'll get to shortly - which led me to think about animals being 'employed' by plants to distribute seeds. There are various ways of doing this, including by sticky burrs which cling to fur and feathers, eventually being dropped (or releasing the seed) some distance from the start of the journey. 
Bidgee Widgee burrs, Acaena novaezelandiae, Family Rosaceae, hitching a ride on my boot laces,
alpine zone, Kosciuszko National Park. They'd probably prefer a wombat or wallaby, but I'll do!
Daisies are another family to employ this strategy.
Australia has perhaps the richest ant fauna in the world, so it is unsurprising that plants from a wide range of Australian families have employed them to assist in distributing seeds. Obviously they don't want the ants to break the seeds up and eat them, and in fact the seeds are usually too hard for the ants to eat. Instead the plant attaches a nutritious temptation to the seed, which the ants haul off to the nest, detaching the seed when they get there and leaving it on the surface or in an underground garbage dump. This dry attachment is either an aril (if it derives from the seed attachment) or an elaiosome (a fatty body different from the aril), and is smaller than the seed. Ants have been observed carrying such seeds up to 75 metres from where they found them.
Discarded seeds surrounding an ant nest, near Alice Springs, central Australia.
But does it work? It certainly does!
Seedlings sprouting from ant nest, Great Sandy Desert, Western Australia.
Ants don't seem to pay much attention to colour, so these arils and elaiosomes tend to be pale in colour. However some acacias have colourful (especially red) arils, which are displayed high on the plant for birds to gather - again taking the seeds along with it.
Blackwood Wattle Acacia melanoxylon, pods, Namadgi NP, near Canberra.
Overall however the simplest and most effective strategy is to have the seeds eaten by a large mobile animal and discarded elsewhere, in droppings or perhaps as regurgitate. Energy is a very important resource - and temptation - for animals, which of course is why so many plants wrap their seeds in colourful, sugar-filled fruits, constructed from the wall of the fertilised ovary. The hard seed passes through the body, deposited sometimes many kilometres away. Here are some birds caught in the act!

Double-eyed Fig Parrot Cyclopsitta diophthalma eating figs (of course), Cairns Esplanade, Queensland.

Metallic Starlings Aplonis metallica eating palm fruit, Cairns Botanic Gardens, Queensland.

Silvereye Zosterops lateralis, with heath berries, Family Ericaceae (or Epacridaceae),
Australian National Botanic Gardens, Canberra.

Pied Currawong Strepera graculina eating Cotoneaster sp. berries, suburban Canberra.
These hedges (and related Pyrocantha spp.) are widely planted in older Canberra suburbs, and currawongs
are important distributors of the seeds into nearby nature reserves, where they are a serious weed hazard.

Male Mistletoebird Dicaeum hirundicum with mistletoe seed, Bundjalung NP, New South Wales north coast.
Mistletoebirds live almost exclusively on mistletoe berries, and are the major vector of the seeds.
It is a fascinating story, and will have its own post one day.
In rainforests in particular, birds and fruit bats are very important vectors of the whole forests' seeds - trees, lianas and shrubs. 

Rose-crowned Fruit Dove Ptilinopus regina in fig, Kakadu NP, Northern Territory.
Other key bird groups involved in distributing rainforest seeds in Australia include bowerbirds
and orioles (which include the figbirds).


Another important contributor is Australia's second-largest bird.
Southern Cassowary Casuarius casuarius, Atherton Tableland, northern Queensland.
We now know that the seeds of the Javan Ash Ryparosa kurrangii, a rainforest tree from north Queensland, germinate far better if they've passed through a cassowary. In fact, over 90% of seeds taken from cassowary droppings germinated, compared with only 4% of uneaten seeds. It has long been known that cassowaries are important vectors of rainforest seeds, but this adds another dimension to their value in the rainforest ecosystem. (The researchers also incidentally found that Javan Ash seeds have one of the highest levels of cyanogens ever recorded in a plant, but presumably the birds pass them through quickly enough and without breaking the surface of the seed, so that they are unaffected.)
In rainforests elsewhere in the world, other birds perform similar roles.
Yellow-throated (or Black-mandibled) Toucan Ramphastos ambiguus, with cecropia fruit,
Wild Sumaco Lodge, northern Ecuador.

Grass-green Tanager Chlorornis riefferii, Abra Patricia Lodge, northern Peru.
Red-crowned Barbet Psilopogon rafflesii, Bako NP, Sarawak.
Bats must never be underestimated however, despite doing their valuable work under cover of darkness.
Black Fruit Bats Pteropus alecto, Charters Towers, Queensland.
Big bats like this - with wing spans of more than a metre - travel many kilometres in a night,
visiting distant rainforest remnants. Smaller seeds are ingested, but even larger ones can be carried
for several minutes before being spat out.
They are not the only mammals to perform the task however.

Ecuadorian Squirrel Monkey Saimiri macrodon (or Saimiri sciureus macrodon), Yasuní NP, Ecuador.
Seedlings sprouting from elephant dropping, Kibale NP, Uganda.
Some plants have even secondarily 'invented' fruit by causing the stem immediately below the bare terminal seed to swell, turn red or black, and fill with sugars, for the same reason as other plants develop 'real' fruit.
Dwarf Ballart Exocarpos strictus.The red 'fruit' is the pedicel, or flower stem, the real fruit is the hard dark nut below it,
comprising a seed in a hard casing.
Mountain Plum Pine Podocarpus lawrencei, Namadgi NP near Canberra.
This is a conifer, so clearly cannot have true fruit (which, as explained earlier, must develop from a flower).
Again the pedicel is swollen, coloured and sweet, and the seed sits on top of it.
Which is pretty much the story - except that I mentioned at the start something I read which triggered this. It was a study conducted by Japanese ecologists which implied that at least one group of animals might have adopted a similar strategy to distribute their 'seeds' - which are really eggs. Stick insects, or phasmids, are poor distributors - many are flightless - but occur on many islands. 
Titan Stick Insect Acrophylla titan, Nowra, south coast NSW.
This one can grow to 25cm long.
Moreover, many species can reproduce parthogenetically - ie without mating. In this case all the hatchlings are female; if they mate both males and females result. The scientists presumably wondered about these two things, because they tried feeding eggs of three phasmid species to Brown-eared Bulbuls Hypsipetes amaurotis, a major phasmid predator in Japan. Up to 20% of the eggs survived, and some hatched, meaning that the birds could potentially be enabling the flightless insects to island-hop. Their next task is to compare the genetics of stick insects along known bird flight paths, to see if there is a correlation. A small thing, but surely much of life depends on a collation of small interesting things...
White-bellied Cuckooshrike Coracina papuensis with large (probably gravid female) phasmid, Nowra.
Did this bird do a favour to its lunch by sparing and spreading its eggs?
NEXT POSTING THURSDAY 14 JUNE
(And remember that you can get a reminder when the next post appears by putting your email address in the Follow by Email box in the top right of this screen.
And I'd love to receive your comments - it's easy and you don't need to sign in!)

7 comments:

Susan said...

Ooooo --- interesting! I hadn't heard that about birds and phasmids.

Flabmeister said...

Excellent article as always.

On our block some of the ants leave distinct trails between their nest and the trees (typically Eucalyptus polyanthemos) on which they are dining. I must go and measure the length of some of the trails but I would have thought they were possibly more than 75m. Do those trees have arils or elaiosomes?

With the Grey-headed flying-foxes of Mallacoota (up to 100,000 in the camp this year) I believe their main food while in that area is Bloodwood (Corymbia gummifera) flowers etc. Would they also eat and disperse the gumnuts of that species or are their dispersive activities restricted to other seasons when they feed on figs and such-like fruits?

Martin

Ian Fraser said...

Thanks Susan; no that information only appeared in the last couple of days, I hadn't known about it until then either.
Martin, excellent points. I think the 75m figure came from a study where actual transport of seeds was measured, but I'm sure that greater distances are also covered. Euc seeds are so tiny that they don't have appendages - the ants actually eat the seeds, hence the trees tend to flower and seed simultaneously to swamp the ability of the ants to carry all the seeds away. However, they gather the seeds from the ground, rather than from the tree. Meat ants are more likely to be hunting animal food in the tree, though they probably get nectar too.
The bats' food/energy sources are nectar (eg from the bloodwoods) and fruit, in the human sense of soft sugary structures, not gumnuts. So yes to your last comment.

Paul Taylor said...

Hi Ian,

Another example for you: stingless bees and Corymbia torelliana:
http://bobthebeeman.com.au/cadaghi-story.asp

Ian Fraser said...

Excellent story, thanks Paul!

pamponders.com said...

Hi Ian, I just stumbled upon your VERY interesting blog this am and wanted to thank you for your brilliant efforts. I've signed up and look forward to reading more fascinating posts.

Enjoy your trip north...smart of you to escape the cold! But you have missed the smattering of snow on the Brindabellas today.

Many thanks.
Pam Harvey.

Ian Fraser said...

Hello Pam, thank you for your kind words and welcome to my blog! I'm so glad you enjoyed it, and I hope I can continue to offer you something of interest. However we're back in Canberra now, and foolishly will be so until the end of winter. Best wishes, Ian.