Colorful fruit-like fungi and forests ‘haunted by species loss’: How a 30-year evolutionary mystery was resolved

Colorful fruit-like fungi and forests 'haunted by species loss ...

Most fungi need only wind or water to disperse their spores. But some, including truffles, need a little help from animals.

Usually, truffles and truffle-like fungi (which don’t belong to the truffle genus, but are otherwise similar) are dull-colored and grow underground.

They use scent to attract mammals, which eat them and disperse the spores across the landscape in their dung. This ancient truffle-mammal relationship is why truffle pigs and truffle dogs (and many humans) love eating these fungi.

But Aotearoa New Zealand had no native land mammals to disperse truffles. Our new study published in Scientific Reports resolves a 30-year mystery about whether fruit-eating birds might instead have taken this role.

NZ’s unusually colorful truffle-like fungi

In most ecosystems, truffles are eaten by small mammals, especially rodents and marsupials, which are critical for fungal dispersal and forest health.

In the 1990s, mycologist Ross Beever noticed something odd about truffle-like fungi growing in New Zealand.

Many had brightly colored fruiting bodies which emerged above the forest floor, essentially mimicking fallen fruit. Because of New Zealand’s lack of mammals (with the exception of bats), Beever hypothesized that these characteristics had evolved to attract birds as spore dispersers because they rely more on vision than scent to find food.

Beever and his colleague Teresa Lebel detailed this fascinating hypothesis elegantly in 2014, but it remained untested for three decades.

Using color to draw attention

In our research, we asked whether New Zealand really has more brightly colored truffle-like fungi or whether we are simply paying more attention to them and under-appreciating the dull ones. And we investigated if there was a link between their distribution and fruit-eating birds.

First, we gathered information about the color and habit (above or below ground) of 479 truffle-like fungus species from around the world. We then obtained more than 24,000 locations for these species from the Global Biodiversity Information Facility database.

These data were analyzed alongside environmental factors (such as precipitation and temperature) and biological aspects (such as forest cover and the presence of fruit-eating birds) that might help explain any spatial patterns.

While colorful truffle-like fungi are also found in South and Central America and Australia, our results confirmed New Zealand has a much greater proportion compared to other landmasses. This is especially true for red and blue colored species.

We also found that, across the world, regions with more fruit-eating birds also had more colorful truffle-like fungi.

Birds, truffle-like fungi and trees

Until recently, birds were thought to have a limited role in dispersing truffle-like fungi.

But this changed in 2021, when a study of fecal samples from two fruit-eating bird species from Patagonia (Chucao tapaculo and Black-throated huet-huet) found DNA and spores from a wide range of fungi, including truffle-like fungi.

The research team also observed both bird species uncovering truffles on the forest floor, thereby demonstrating the important role birds could have in fungal dispersal.

A further finding of the Patagonian study was that many of the truffle-like fungi detected in the fecal samples are part of the underground network of fungi-plant root interactions known as mycorrhiza.

In New Zealand, the most colorful truffle-like fungi are also mycorrhizal with locally dominant forest trees such as beeches and podocarps. These fungi make it easier for the trees to access water and mineral nutrients from the soil. Therefore, birds that eat truffle-like fungi may not only be important for the fungi themselves, but for entire forest ecosystems.

A legacy of extinction

The results of our study support the idea that colorful truffle-like fungi are adapted for bird dispersal, and that they are more common in New Zealand than elsewhere in the world.

Yet, paradoxically, the number of observed instances of local birds eating truffle-like fungi can be counted on one hand. Why is this? The answer may lie in New Zealand’s legacy of extinction.

Around one third of all bird species on the mainland and offshore islands have become extinct since the first human settlers arrived during the 13th century. Many more have had their populations reduced to the point of functional extinction. Among these are many large birds known to have eaten fruit, including nine species of moa and kākāpō.

In 2018, a study of DNA from ancient dung of moa and kākāpō found evidence these birds once ate mycorrhizal truffle-like fungi. The loss of such birds from New Zealand’s forests represents the end of millions of years of co-evolution with fungi.

These bird-adapted fungi may now remain as ghosts of past mutualisms—the association between organisms of two different species in which each benefits—much like the large tropical fruit once eaten by gomphotheres, an extinct group related to modern elephants.

How will our forest trees cope with the loss of these bird-fungus interactions, which help facilitate plant growth on bare soils? Can introduced animal species act as surrogate dispersers for native fungi?

The implications for forests, haunted by species loss, remain unknown. With continued research and conservation efforts, however, we can better understand and support the balance of our forest ecosystems to ensure the rich and unique biodiversity of New Zealand’s forests endures for generations to come.

More information:
Amy Brunton-Martin et al, Evidence for adaptation of colourful truffle-like fungi for birds in Aotearoa-New Zealand, Scientific Reports (2024). DOI: 10.1038/s41598-024-67333-x

Provided by
The Conversation

This article is republished from The Conversation under a Creative Commons license. Read the original article.The Conversation

Citation:
Colorful fruit-like fungi and forests ‘haunted by species loss’: How a 30-year evolutionary mystery was resolved (2024, August 26)

Subscribe
Don't miss the best news ! Subscribe to our free newsletter :