Thursday 24 November 2016

Unwanted aliens: is a predator-free New Zealand realistic by 2050?

In a moment of half-baked madness worthy of Donald Trump, the New Zealand Government has announced a plan to make the nation predator-free by 2050. As can be imagined this statement has attracted a wide range of opinions, even from across various conservation groups. These vary from the extremely optimistic viewpoint of Forest and Bird advocacy manager Kevin Hackwell, who claims it is achievable even earlier, to the Green Party's conservation spokesman Kevin Hague, who publicised a University of Auckland study estimating the project's budget at an astonishing if not untenable NZ$9 billion.

With the government prepared to provide just one-third of the plan's funding, it's difficult to imagine which private sector companies would be willing to supply the lion's share over the next three decades. As expected, the response of New Zealand's political opposition has been to pour very cold water on the plan, including the claim that no nation has ever managed to wipe out its population of rats (Hamelin and its Pied Piper notwithstanding).

One of the most essential questions is what is defined as a pest in the context of this proposal?  The relevant Department of Conservation (DoC) page names three principle animal pests: possums, rats and stoats, with a further page expanding the list to other introduced animals and freshwater fish, including cats and dogs (both domestic and feral). Some of the species listed were deliberate introductions, mainly in the Nineteenth Century, whilst others came in accidentally under the radar - New Zealand's biosecurity protocols not always being as draconian as they are now.

A few statistics offer a frightening idea of the scale required: as of 2001 it was estimated that there were seventy million possums in New Zealand, eating 21,000 tonnes of vegetation every night. Needless to say, much of this material consists of endemic species such as pohutukawa and southern rata trees. This then has a knock-on effect for the native fauna that feeds or nests on these species, which of course is in addition to being direct prey for the possum.

Although cats and dogs might be thought of more as pets than pests, even in low numbers they can be devastating to native wildlife. A classic example is the extinction of the Stephens Island wren thanks to a number of feral cats, whilst it is thought that one stray dog managed to kill more than five hundred large brown kiwi in the Waitangi State Forest in less than a year.

DoC's Battle for our Birds scheme relies on aerial drops of poison and ground baits/traps to eradicate the key non-native pests. This year their target area was almost 900,000 hectares; to give an indication of the increase in scale necessary for a nationwide eradication, New Zealand is close to 27 million hectares in total. Perhaps the much-misused term 'paradigm shift' could be safely applied in this circumstance?

At this point it should be mentioned that there are varied opinions as to what the government's planned outcome is. After all, there have been humans living in New Zealand for over seven centuries, so there is little chance of any except the most remote locales returning to a pristine ‘natural' wilderness, even if we knew exactly what that meant. Having said that, the Pleistocene Park project in Russia is attempting something along similar lines. A small region of north Siberian tundra is being converted into glacial period steppe, using musk ox and other large animals as surrogates for extinct mega fauna such as mammoth and woolly rhinoceros. The resulting flora appears to be much more diverse and interesting than the unmanaged wilderness surrounding it, which is ironically the antithesis of what one would expect or hope for with untouched versus deliberately altered landscapes!

Then there's the scale issue: whilst possums, rats and mustelids are relatively easy to track and observe, small species such as wasps and argentine ants are far more difficult to locate, never mind eradicate. Although they don't inflict as much obvious damage to the native flora and fauna, they can nonetheless cause fundamental changes to the ecosystem. Wasps for example eat honeydew, which is an important food source for lizards and native birds such as kaka.

It isn't just insects that would be tricky to wipe out. The rainbow or ‘plague' skink was accidentally introduced from Australia about half a century ago and now seems ubiquitous in Auckland; I've seen it everywhere from volcanos to paddocks, gardens to garages, even inside a bookshop. Thanks to much faster reproduction and maturation rates than native equivalents, it appears to be rapidly out-competing them.



One issue that prevents a complete turning back of the clock is the extinction of dozens of species since the arrival of humans in the country. How can the ecosystem, especially food webs, maintain a long-term balance with key species missing? No-one is suggesting we bring in cassowaries to replace the nine species of moa. Of course, being large creatures they were probably none too numerous, yet there is an hypothesis that they may have been involved in an evolutionary arms race with lancewood, the juvenile trees being well-protected against moa browsing them.

Therefore any attempt to preserve a largely native ecosystem will need to ensure the food webs are fully-functional, with plenty of indigenous pollinators such as short-tailed bats and kereru (native pigeon). Key native species need to identified and preserved just as much as introduced ones removed. This in turn begs the obvious point that since evolution is an ongoing process, are we attempting to freeze the environment at a particular snapshot in time rather than allowing nature to take its course? Even accounting for punctuated equilibrium, natural selection hasn't suddenly stopped in New Zealand any more than it has elsewhere.

The pest-free project will presumably need to tackle species in a certain order, since if mustelids and feral cats are eliminated then rats will proliferate, whilst without rats as prey, the former species will be forced to look for alternative food sources instead; doubtless native birds would form the mainstay of this.

As I have discussed elsewhere, it shouldn't just be the enemies of the native poster species that are targeted. There are plenty of critters less famous than parrot kakapo and ancient reptile tuatara that deserve some attention too, with the endemic weta an obvious example (over twenty percent of its species are currently under threat). Invertebrates play an almost unknown role in nutrient recycling and waste disposal, as well as appearing on the menu of more conspicuous animals. Considering that the takahe, the largest species of swamp hen, was thought extinct for half a century, perhaps we shouldn't be surprised about how little is known concerning the size and condition of native creepy crawly populations. However small and insignificant we might judge them, we ignore their loss at our peril.

Also often overlooked are the native freshwater creatures. Competition comes in the form of the high number of invasive species that compete or predate on them. A key example is the aggressive gambusia, a Mexican fish introduced to eat all the mosquito larvae - which of course it fails to do. Interestingly enough, the DoC website excludes some introduced species from its list of pests: salmon and trout for example are categorised as 'sports fish'. Therefore is economics the government's primary motive for the pest eradication plan, rather than good old-fashioned conservation for the sake of it? After all, the extremely rare takahe was once given second place to herds of elk that had been introduced to serve as a big game animal.

There may be something in this. Mainstream politicians are renowned for their lip service commitment to environmental issues. Could it be that in the wake of the highly negative stories earlier this year concerning exceeded fishing quotas and river pollution, the government is fighting to redeem New Zealand's '100% Pure' brand image?  In addition, agriculture might benefit from an increase in native species' populations. An outstanding example of the latter is shown by a Federated Farmers of NZ estimate that native bees provide pollination services to the tune of NZ$4.5 billion per year!

Finally, we get to flora. As Bec Stanley, a curator at Auckland's Botanic Gardens, is keen to point out, the majority of people have plant blindness compared to their interest in animals. There are thought to around three invasive plant species for every four natives, with old man's beard, gorse, ragwort and nightshade being amongst the best-known culprits. These can smother and kill native plants, thus depriving indigenous animals of food. Despite being vital to the ecosystem, the war on introduced vegetation really seems to be underdeveloped compared to that against non-native animals.

It doesn't take much to upset the balance of at least a local-scale environment. The surviving remnants of mighty kauri forest are currently facing a disease thought to be caused by an introduced water-mould pathogen, a clear case of David conquering Goliath. Without careful consideration, the project to rid New Zealand of introduced pest species could end up doing more harm than good. The motives are potentially dubious and the research chronically under-funded. It remains to be seen whether there is the willpower to see it through or if it is just one more piece of political rhetoric that evaporates by the next election. Personally, I'm in favour of the idea, but uncertain of how realistic it is. Regardless, the citizens of New Zealand need to do their best, lest many more species join the ranks of moa, huia, adzebill and many, many others. After all, who wants their children living in an environment dominated by feral pigeons, rats and possum?

Thursday 27 October 2016

Murky waters: why is the aquatic ape hypothesis so popular?


Whilst not in the same class as the laughably abysmal Discovery Channel mockumentaries on the likes of mermaids and extant (rather than extinct) megalodon, the recent two-part David Attenborough BBC Radio 4 documentary The Waterside Ape has left me gritting my teeth...grrr.

The programme has confirmed something I suspected from his 2010 BBC television series and associated book, First Life: namely, that the style of his exposition takes priority over the substance of his material. I'll quickly recap on the howler he made in an episode of First Life, ironically one that featured renowned trilobite expert Richard Fortey, albeit in a different sequence. When discussing trilobites, Sir David briefly mentions that they get their name from having three segments from front to rear: head, body and pygidium (tail) - which is totally wrong!

The name is the give-away. Tri-lobe refers to the three segments across the width of the body: a central lobe and two lateral lobes. Many creatures have the head, body and tail segmentation, so it would be far from unique in trilobites. I find this example of incorrect information rather discomforting, especially from someone like Sir David who has been a fan of trilobites since childhood. You have to wonder why experts aren't invited to give BBC science and nature documentaries the once-over before broadcast, just in case any gaffes have got through to the final cut?

The issue then, is that if we non-professionals believe the content espoused by such senior figures in the field of science communication - and if such material goes without basic error-checking from professionals - how is the public to receive a half-decent science education? Of course science isn't a body of knowledge but a toolkit of investigation techniques, but few of the general public have the ability to test hypotheses themselves or access the jargon-filled original scientific papers. So relying on books and media from distinguished communicators is the primary way of increasing our STEM (Science, Technology, Engineering and Mathematics) knowledge.

Back to The Waterside Ape. The hypothesis is an old one, dating back to marine biologist - and let's face it, oddball theorist - Sir Alister Hardy's first, unpublished speculations in 1930. However, the idea didn't achieve widespread dissemination until Elaine Morgan began to publicise it in the early 1970's. Otherwise known as a fiction writer, Morgan's output on the aquatic ape hypothesis was originally considered to be a feminist critique rather than particularly serious science, bearing in mind that the author lacks professional training or experience in the field of evolutionary biology.

Whether it is thanks to dissemination via the World Wide Web, her pro-aquatic ape books have become ever more popular over the past twenty years. This is in spite of the ever-increasing number of hominin fossils and sophisticated analytical techniques that have shown little support for the idea. I'm not going to examine the evidence for and against the hypothesis, since that has been done by many others and I'm marginally less qualified to assess it than Elaine Morgan. Instead, I'm more interested in how and why the idea has maintained popular appeal when the general consensus among the specialists is that it is profoundly incorrect.

Could it be that the engaging quality of Morgan's writing obscures a lack of dry (geddit?) analysis upon a subject that could at best be deemed as controversial - and thus fool the general readership as to its validity? Or is there more to it than that? The BBC seem to have maintained an on-going interest in supporting her work over the past two decades.

Indeed, The Waterside Ape is not David Attenborough's first foray into the idea. He made another two-part BBC Radio 4 series called Scars of Evolution back in 2005, which included some of the same interviews as the recent programmes. The BBC and Discovery Channel also collaborated in 1998 on a television documentary favouring the hypothesis called surprisingly enough The Aquatic Ape, albeit without Attenborough's involvement.

A key argument that I'm sure gets public support is that the of a radical - and female - outsider being shunned by the conservative, male-dominated establishment, with Elaine Morgan pitted against the reactionary old guard of palaeontologists, biologists, etc. Her plight has been described in the same vein as meteorologist Alfred Wegener's battle with orthodox geology between the world wars, but in Wegener's case his hypothesis of continental drift lacked a mechanism until plate tectonics was formulated several decades later. As for the aquatic ape, there seems to be a suite of models describing a gamut of ideas, from the uncontroversial speculation of hominins wading for iodine- and Omega-3-rich foodstuffs (promoting brain growth) to human ancestors being Olympic-class ocean swimmers who would feel at home in a Discovery Channel mermaid mockumentary.

We shouldn't ignore the emotive aspects of the hypothesis, which the various programmes have described as a "fascinating idea" that would be "lovely to confirm". Since most people still think of dolphins as innocent, life-saving and cute (when in fact they play brutal cat-and-mouse games with live porpoises) could this be a psychological attempt to salvage something of our own rapacious species?

Elaine Morgan admitted that her first book was a response to her annoyance with the 'killer ape' theories of the 1960's, as espoused in Robert Ardrey's seminal 1961 volume African Genesis. In these post-modern, politically-correct times of gatherers first and hunters second, Raymond Dart and Robert Ardrey's once-influential machismo ape-man has fallen from favour. Unfortunately, the famous Ardrey-influenced Dawn of Man sequence in 2001: A Space Odyssey promotes just such a viewpoint, so perhaps it isn't any wonder that supporting a more tranquil aquatic ancestry might appear to be an easy way to bring 21st century sensitivities to a world reeling from constant violence.

Another possible reason for the hypothesis' widespread support is that it relies on what appears to be an impressive accumulation of facts in the Darwinian mould, without recourse to difficult mathematics or sophisticated technical jargon. For those unable to get a clear understanding of major contemporary science (Higgs boson, anyone?) the idea of aquatic ape ancestors is both romantic and easy to digest, if the supporting evidence is taken en masse and the individual alternatives for each biological feature ignored or undeclared.

Clearly, whoever thinks that science is detached from emotion should think again when considering the aquatic/waterside/paddle-boarding ape. Although on the surface a seductive idea, the collection of proofs are selective, inadequate and in some cases just plain wrong. It might be good enough for the sloppy pseudo-scientific archaeology of Graham Hancock and Erich von Daniken, but good science needs rather more to go on. Yes, there are some intriguing nuggets, but as Dr Alice Roberts said in her critique of the recent Attenborough radio series, science is about evidence, not wishful thinking. Unfortunately, the plethora of material contains rather more subtleties than trilobite nomenclature, so I can only sigh again at just how many equally poorly-concocted ideas may be swashing around the world of popular science communication. Come on, Sir David, please read past the romance and dig a bit deeper: the world needs people like you!