Seed Banks

Ever heard of a seed bank? The basic idea is this: When the apocalypse is over and the forests are nothing but smoking ruins and the fields barren of grain, fear not! We can reboot the world thanks to our banked seeds stored in bunkers strategically located from here to eternity. The Svalbard International Seed Vault in Norway, for instance, currently holds more than 880,000 seeds and has the capacity to hold 2.5 billion seeds.

Seeds are amazing that way; all you need to do is dry them out and freeze them solid and they can last for years. It's a comforting thought — an ace up civilization's sleeve in the less-and-less-unlikely scenario that we self-destruct. The U.N.'s Global Strategy for Plant Conservation plans to bank 75 percent of all plant species by 2020.

Think of a seed bank as a savings account. Seeds are deposited into secure storage with the intention of withdrawing them in the future when they are needed. Just as you might keep money saved for an unforeseen emergency, scientists are saving up seeds to use for replanting in case certain crops die out or are destroyed. When stored correctly, seeds can remain viable for decades or even centuries.

There are currently about 1,400 seed banks around the world, but the most famous is the Svalbard Global Seed Vault, which opened on Feb. 26, 2008. Also known as the Doomsday Vault, it functions as a global repository and backup for all other seed banks.

Seed banking is a complicated concept. This section will touch upon all of its facets -- why we need seed banks, who's responsible for the seeds, and how they are stored.

Seeds of World's Rarest Trees and Crops Can't Be Banked

But hold the comforting thought. According to a study from researchers at the Royal Botanic Gardens, Kew, there's a significant catch. Researchers discovered that a whole whack of plant seeds just can't be banked — including avocado, cacao and mango. Their findings, which were published in the Nov. 2, 2018, issue of the journal Nature Plants, detail how a full 33 percent of tree species alone are on this list, including oak and chestnut trees. Worse still, 36 percent of our critically endangered species are also unbankable. That's not even counting 27 percent of the plain old endangered plants, or 35 percent of the vulnerable ones.

Why can't these seeds be banked? Apparently, not all seeds like the drying out process. And for this, they're labelled recalcitrant seeds, which seems a little unfair. Calling a seed stubborn just because it can't tolerate dehydration is a bit rich coming from a species that can barely last two days without water.

Luckily, there's a way out of this jam and it involves liquid nitrogen, which is always fun. Yes, to make sure we've got all our seeds safely tucked away in indefinite storage, we have to resort to cryopreservation, just like Ted Williams and the other immortals on ice. All one has to do is dissect the seed, pry out its embryo and plunge it in smoking-cold nitrogen.

Instead of storing seeds at a conventional -20 degrees Celsius (-4 degrees Fahrenheit), going cryo will keep these finickier seeds in suspended animation at a sub-glacial temp of -196 Celsius (-320 degrees Fahrenheit). Some researchers advocate cryopreservation for all seeds, even the cooperative ones, because they'll last longer.

Ex-situ conservation of plants is more critical than ever, with many threats to plant populations including climate change, habitat conversion and plant pathogens, we need to make sure we're doing all we can to conserve the most important and threatened species, John Dickie, head of Seed & Lab-based Collections at Kew's Millennium Seed Bank and an author of the paper, said in a statement. As successful as seed banking is for some species, it is not suitable for all seed plants and we need to invest in other ways to safeguard recalcitrant seeds. This paper shows that we need greater international effort to understand and apply alternative techniques like cryopreservation which have the potential to conserve many more species from extinction.