Volunteering for victory: can people power make New Zealand pest-free?

I've often discussed citizen science and how it varies from pie-in-the-sky research to projects with practical goals that may be achievable within a lifetime. When it comes to conserving native species New Zealand has a plethora of public engagements, including the Garden Bird Survey and Great Kererū Count (the latter being the country's largest citizen science project.) In a nation that is slowly waking to the realisation that it is far from '100% Pure', concerted efforts are finally be made to secure a future for beleaguered native fauna (and to a lesser extent flora, although few are seemingly aware of the interdependencies).

In late 2016 I wrote a post about the Predator Free 2050 scheme, focusing on how impractical it seemed. There was good reason for this: the University of Auckland estimated that it would require an astonishing NZ$9 billion to implement, a figure approaching 4% of the national GDP. Five years on and it appears this negativity was well deserved, as the project appears woefully underfunded; according to their website so far only NZ$178 million has been spent on the scheme. By comparison the annual budget for controlling possums, rats and stoats is NZ$114m, so it could hardly be deemed a flying start. There are an estimated 30 million possums in New Zealand, never mind the mustelids, rodents and other lesser pest species; the obvious implication is that numbers this large will require equally immense resources to eradicate them.

So what's to prevent this from being just another example of  'doomscrolling', of which have plentiful examples at the moment? After all, with billionaires now spending precious resources on racing to become astronauts - presumably superyachts are so last decade - it could be argued that those with the funds for the task just aren't interested in anything as mundane as conservation. It's often said that it is the people who make a place and in the case of New Zealand, it could just be the citizens - both with and without science - that make the difference. Kiwi ingenuity (that's the people, not the bird) and the 'number eight wire' mentality have enabled a young nation to punch well above its weight in so many fields. Can they do likewise in conservation?

Let's start with the science. New Zealand's rugged landscape requires a smart approach to predator control; there are so many reasons why flying thousands of bait-dropping helicopter missions would not be a good idea, not least due to the impossibility of funding them. Various projects are therefore now looking to lower the cost of poisoning and trapping, seeking robust maintenance-free solutions that can survive in the wilderness with minimal human intervention. From new thermal imaging cameras to auto-reset bait stations containing long-lasting toxins, research projects are showing that small-scale developments can make enormous differences to pest eradication. Hopefully, some of these devices will be out in the field in useful numbers within the next few years.

Often unsung heroes, there are also thousands of New Zealand citizens doing unpaid conservation work. I've met various volunteers for the Department of Conservation who spend their weekends climbing up and down knotted ropes and wading through icy streams in order to replenish bait boxes and reset traps. Many are retirees and some are ex-military - it's physically demanding and not at all glamorous, but can very satisfying work. The nation has a long history of such volunteering, something which has escalated in the past forty years with the setting up of predator-free fenced mainland sanctuaries and small sanctuary islands. To date, there are approximately 120 such refuges for native wildlife, many having been initiated by their local community and now being sustained by volunteers.

Even businesses are belatedly getting in on the act, giving their staff paid workdays to undertake volunteering such as planting and weeding within sanctuaries and coastal rubbish clean-ups. Earlier this year (between lockdowns of course) I was lucky enough to spend a day on Motuihe Island in the Hauraki Gulf, one of a group of thirty or so volunteers removing the noxious invasive plant woolly nightshade. What was amazing was seeing small flocks of native birds such as saddleback/tīeke, New Zealand parakeet/kākāriki and whitehead/pōpokotea, as opposed to the usual one or two you might see elsewhere (such as in zoo enclosures). Clearly, the planting of native species and foreign pest eradication - including abseiling to reach some of the weeds - has paid off beautifully.

Small islands are one thing, but what about the mainland? The nation's capital, Wellington, might be claimed by its inhabitants to be leading the way. Predator Free Wellington is the umbrella organisation for a range of projects that are aiming to eradicate pests from 30,000 hectares in and around the city. Already being possum free, the Miramar peninsula has been the starting point of rodent eradication, with almost 10,000 bait stations and traps placed at regularly intervals, mostly in residential gardens. The project is labour-intensive but still costs millions, so the hope is that by setting an example of what can be achieved, other regions in the country will follow suit. Whether their local councils will prove as farsighted as the capital's remains to be seen.

Like climate change mitigation, it seems that engaging and motivating the general public will be the only way to achieve a predator-free New Zealand, whether in 2050 or most likely at some point later. If this seems a bit naive - and overly optimistic, especially when compared to my initial assessment in 2016 - then last year's incredible work by the population to contain COVID-19 made New Zealand a frequent feature on international headlines, something that was previously a rare event. The 'team of five million' showed the naysayers (most of these, in my experience, being middle-aged white men) that even a relatively small group of people, globally speaking, could provide inspiration and be a role model to kick-start action elsewhere. If a lot of people take a little action, surely it can combine into an enormous amount of change? Much depends on the success - and cost - of Predator Free Wellington; if the nation's capital can achieve it the snowball effect might just take off, with local groups of volunteers making up for the lack of support from government and big business. 

What's in it for the volunteers, you might ask? The health benefits, from physical exercise to reducing stress and anxiety, are now well established. In addition, those who dedicate their spare time to unpaid conservation work can learn new practical skills, meet like-minded people, engage in teamwork and gain enjoyment from the sheer empowerment - knowing that you are actually achieving something useful. According to the Department of Conservation, it is estimated there are currently 200,000 active volunteers in this sector, which might not sound like a large number until you realise that it accounts for almost four percent of the New Zealand population!

Considering the history of the fenced reserves and sanctuary islands, it seems clear that motivating local communities can achieve wonders. If the Predator Free project is to succeed, we need a widespread engagement of the general population. New Zealand is far from alone, but having lost over fifty birds (more if you include the Chatham Islands), three lizards, three frogs, a bat, a freshwater fish, four plant species and numerous invertebrates, now is the time to act. Despite the negative effects of pollution and habitat loss due to development, it is a sobering thought that invasive fauna are equally capable of inflecting immense damage on a previously isolated ecosystem. As this plaque shows, many species were lost prior to the landing of the first Europeans: the original human inhabitants of New Zealand arrived less than a thousand years ago, but a combination of the introduced Polynesian rat and Polynesian dog, and their own hunting prowess, rapidly kick-started the eradication process.

Well, this is my last post, as least for a while. After twelve years I've learnt an enormous amount, but my sustainability champion voluntary work - engaging with over 5,000 work colleague on climate change mitigation and wider environmental issues - is taking up my spare time. If there is a moral to this story, it's a simple one: let's act - now!

The anaesthetic of familiarity: how our upbringing can blind us to the obvious

In the restored Edwardian school classroom at Auckland's Museum of Transport and Technology (MOTAT) there is a notice on the wall stating 'Do not ask your teacher questions.' Fortunately, education now goes some way in many nations to emphasising the importance of individual curiosity rather than mere obedience to authority. Of course, there are a fair number of politicians and corporation executives who wish it wasn't so, as an incurious mind is easier to sway than a questioning one. As my last post mentioned, the World Wide Web can be something of an ally for them, since the 'winner takes all' approach of a review-based system aids the slogans and rhetoric of those who wish to control who we vote for and what we buy.

Even the most liberal of nations and cultures face self-imposed hurdles centered round which is the best solution and which is just the most familiar one from our formative years. This post therefore looks at another side of the subjective thinking discussed earlier this month, namely a trap that Richard Dawkins has described as the "anaesthetic of familiarity". Basically, this is when conventions are so accepted as to be seen as the primary option instead of being merely one of a series of choices. Or, as the British philosopher Susan Stebbing wrote in her 1939 book Thinking to Some Purpose: "One of the gravest difficulties encountered at the outset of the attempt to think effectively consists in the difficulty of recognizing what we know as distinguished from what we do not know but merely take for granted."

Again, this mind set is much loved by the manufacturing sector; in addition to such well-known ploys as deliberate obsolescence and staggered release cycles, there are worse examples, especially in everyday consumerism. We often hear how little nutritional value many highly processed foods contain, but think what this has done for the vitamin and mineral supplement industry, whose annual worldwide sales now approach US$40 billion!

Citizens of developed nations today face very different key issues to our pre-industrial ancestors, not the least among them being a constant barrage of decision making. Thanks to the enormous variety of choices available concerning almost every aspect of our daily lives, we have to consider everything from what we wear to what we eat. The deluge of predominantly useless information that we receive in the era of the hashtag makes it more difficult for us to concentrate on problem solving, meaning that the easiest way out is just to follow the crowd.

Richard Dawkins' solution to these issues is to imagine yourself as an alien visitor and then observe the world as a curious outsider. This seems to me to be beyond the reach of many, for whom daily routine appears to be their only way to cope. If this sounds harsh, it comes from personal experience; I've met plenty of people who actively seek an ostrich-like head-in-the-sand approach to life to avoid the trials and tribulations - as well as the wonders - of this rapidly-changing world.

Instead, I would suggest an easier option when it comes to some areas of STEM research: ensure that a fair proportion of researchers and other thought leaders are adult migrants from other nations. Then they will be able to apply an outside perspective, hopefully identifying givens that are too obvious to be spotted by those who have grown up with them.

New Zealand is a good example of this, with arguably its two best known science communicators having been born overseas: Siouxsie Wiles and Michelle Dickinson, A.K.A. Nanogirl. Dr Wiles is a UK-trained microbiologist at the University of Auckland. She frequently appears on Radio New Zealand as well as undertaking television and social media work to promote science in general, as well as for her specialism of fighting bacterial infection.

Dr Dickinson is a materials engineering lecturer and nanomaterials researcher at the University of Auckland who studied in both the UK and USA. Her public outreach work includes books, school tours and both broadcast and social media. She has enough sci-comm kudos that last year, despite not having a background in astronomy, she interviewed Professor Neil deGrasse Tyson during the Auckland leg of his A Cosmic Perspective tour.

The work of the above examples is proof that newcomers can recognise a critical need compared to their home grown equivalents. What is interesting is that despite coming from English-speaking backgrounds - and therefore with limited cultural disparity to their adoptive New Zealand - there must have been enough that was different to convince Doctors Wiles and Dickinson of the need for a hands-on, media savvy approach to science communication.

This is still far from the norm: many STEM professionals believe there is little point to promoting their work to the public except via print-based publications. Indeed, some famous science communicators such as Carl Sagan and Stephen Jay Gould were widely criticised during their lifetime by the scientific establishment for what were deemed undue efforts at self-promotion and the associated debasement of science by combining it with show business.

As an aside, I have to say that as brilliant as some volumes of popular science are, they do tend to preach to the converted; how many non-science fans are likely to pick up a book on say string theory, just for a bit of light reading or self-improvement (the latter being a Victorian convention that appears to have largely fallen from favour)? Instead, the outreach work of the expat examples above is aimed at the widest possible audience without over-simplification or distortion of the principles being communicated.

This approach may not solve all issues about how to think outside the box - scientists may be so embedded within their culture as to not realise that there is a box - but surely by stepping outside the comfort zone we grew up in we may find problems that the local population hasn't noticed?

Critical thinking is key to the scientific enterprise, but it would appear, to little else in human cultures. If we can find methods to avoid the anaesthetic of familiarity and acknowledge that what we deem of as normal can be far from optimal, then these should be promoted with all gusto. If the post-modern creed is that all world views are equally valid and science is just another form of culture-biased story-telling, then now more than ever we need cognitive tools to break through the subjective barriers. If more STEM professionals are able to cross borders and work in unfamiliar locations, isn’t there a chance they can recognise issues that fall under the local radar and so supply a new perspective we need if we are to fulfil our potential?

Counting keruru: can public surveys and competitions aid New Zealand conservation?

Whilst some other countries - the UK, for example - have dozens of general and specialised wildlife surveys undertaken by members of the public, New Zealand has comparatively few. Whilst this might seem odd, considering the Kiwi penchant for the great outdoors (not to mention the little matter of the endangered status of so many native species) it should be remembered that the nation has a rather small (human) population. In addition, New Zealand is no different from other developed countries, wherein environmentalists often appear at loggerheads with rural landowners, especially farmers.

Since agriculture forms a fundamental component of the New Zealand economy, any anti-farming sentiment can quickly escalate into unpleasantness, as even a cursory look at agriculture versus environmentalists news stories will confirm. Farmers are often reported as resenting what they deem as unrealistic or uninformed opinions by wildlife campaigners. But lest farmers consider this particular post being yet another piece of anti-farming propaganda, it should be noted that campaigns are usually driven by a perceived need for action in the face of government inactivity: after all, New Zealand is second only to Hawaii in the number of introduced species, many of which are in direct competition with, or predate upon, native ones.

Talking of competitions, this year's Bird of the Year contest has just been won by the cheeky, intelligent kea, the world's only alpine parrot. Run by Forest and Bird* and now in its thirteenth year, it aims to raise publicity for the plight of New Zealand's native birds and the wider environment they rely upon. With over 50,000 votes cast, this means approximately 1% of New Zealand citizens and residents entered the competition (assuming of course that non-Kiwis didn't participate).

The international level of awareness about the competition seems to be on the increase too, with the kea's victory even being reported on the website of the UK's The Guardian newspaper, albeit in an article written by a New Zealand-based journalist. The competition doesn't appear to offer anything to science, except a potential – if not unobvious - theory that the public's fondness for particular wildlife species is based upon their aesthetic qualities, with drab birds for example getting less attention than colourful ones. Then again, perhaps Forest and Bird are more interested in spreading their message rather than the results; as the old adage goes, there's no such thing as bad publicity. Indeed, the story of a Christchurch-based who tried to rig the vote in favour of the white-faced heron was reported by the BBC.

Another prominent example of the New Zealand's public involvement in environmental matters is the Annual Garden Bird survey, which began in 2007 and is run by the Government-owned Landcare Research. This more obvious example of citizen science states that the results are used to analyse population trends for both native and introduced bird species and so aid pest control programmes. However, it would be difficult to ascertain the validity of the observations, since less than 0.3% of the nation's gardens (or rather their owners) participate.

Whilst 5000 entries might be considerably more than could be achieved by other means, there are probably all sorts of details that are missed with this level of coverage. I have participated for three years now and have found that my observations do not agree with the reported trends. For example, last year's results show that the silvereye, blackbird and song thrush have declined in my area, whereas I have not noticed any such a drop-off for these birds -  and it's not as if I particularly encourage the latter two (non-native) species.

A more specific example of bio-recording was last month's Great Kereru Count, which claims to be New Zealand's biggest citizen science project. Clearly, they don't consider the Bird of the Year competition as science! Various organisations run this survey, which gained around 7000 reports this year. There are also continuous monitoring schemes, such as for monarch butterflies (which is interesting, as this is a far-from-endangered, recently self-introduced creature) whilst NatureWatch NZ allows anyone to supply a record of a plant or animal species, or indeed to request identification of one. The latter might not sound particularly necessary, but judging by how little some New Zealanders seem to know about their own environment (for example I've met Kiwis who cannot identify such common organisms as a tree weta or cabbage trees) this resource is probably essential in understanding the spread of non-native species.

With native species protection in mind, there are other, more direct, citizen science projects in the country, with everything from the Great Kiwi Morning Tea fundraiser this month to allocation of funding for predator control tools and traps – including in urban gardens - via the independent trust Predator Free New Zealand.

For an even greater level of public involvement in science and technological research, in 2015 the New Zealand Government initiated the Participatory Science Platform to aid partnerships between professionals and community groups. Three pilot projects are currently under way, with Dr Victoria Metcalf as the National Coordinator (or Queen of Curiosity as she has been nicknamed.) These projects are exciting because they involve the public from project development through to conclusion, rather than just using non-scientists as data gatherers. In addition, the ability to gain first-hand experience on real-world undertakings may even encourage children from lower decile areas to consider STEM careers. That's no bad thing.

Back to surveys. Although science communication (sci-comm) is in vogue, my own feeling is that participation is key to promoting science – the methods as well as the facts – to the wider public. Yes, some science is very difficult to understand, but there's plenty that is also easy to grasp. This includes the dangers facing species pushed to the brink of extinction by habitat loss, pollution, and introduced organisms. By actively involving entire communities, surveys and competitions can also play a part in preserving species whilst allowing a sustainable level of development.

Of course this requires a government with vision, but with New Zealand's Green Party gaining positions in the Jacinda Ardern-led coalition, perhaps the newly-formed New Zealand Government will pick up the slack after years of prevarication and inactivity. That way our grandchildren will be able to experience the cheeky kea and company for real, rather than just via old recordings. How can that fail to make sense? After all, at the lower end of the bio-recording spectrum, all it requires is for someone to make a few taps on their keyboard or smartphone. It's certainly not rocket science!

*Forest and Bird have actively lobbied the New Zealand Government in numerous cases to prevent environmental degradation via land swaps, mining and hydro-electric schemes. They have produced a volume on environmental law and a mobile app called the Best Fish Guide. All in all, they perform an immensely valuable contribution to ensure that development in New Zealand is sustainable and that the public are made aware of schemes that might impact the wider environment.

The zeal in Zealandia: revealing a lost continent

From an outsider's standpoint, geology appears to be a highly conservative science. As I have mentioned on numerous occasions, it seems astonishing that it took over four decades for Alfred Wegener's continental drift hypothesis to be formalised - via the paradigm-shifting discovery of sea floor spreading - into the theory of plate tectonics. I suppose that like evolution by natural selection, the mechanism, once stated, seems blindingly obvious in hindsight.

Regardless, the geological establishment appears to have been stubbornly opposed to the ideas of an outsider (Wegener was a meteorologist) who was unable to provide proof of an exact mechanism. This was despite the fact that the primary alternative, hypothetical submerged (but extremely convenient) land bridges, appear even more far-fetched.

Over the past few decades geophysical data has been accumulating that should generate rewrites of texts from the most basic level upwards. Namely, that the islands making up New Zealand are merely the tip of the iceberg, accounting for just six per cent of a mostly submerged 'lost' continent. Once part of the Southern Hemisphere's Gondwana, in 1995 the newly discovered continent was given the name Zealandia. Approximately five million square kilometres in size, it broke away from the Australasian region of Gondwana around 70-80 million years ago.

After a decade or two of fairly lacklustre reporting, 2017 seems to be the year in which Zealandia is taking-off in the public domain. First, the Geological Society of America published a paper in February. stating that Zealandia should be officially declared as a continent. Then in July the drill ship Joides Resolution began the two month long Expedition 371, a research trip under the International Ocean Discovery Programme (IODP). Scientists from twelve countries undertook deep sea drilling, gaining data on plate tectonics, palaeontology and climate history as well as research directly relevant to understanding the geology of the newest continent.

It is surprising then to learn that geologists first mooted the idea as early as the 1960s but that apart from some marine core samples collected in 1971, no-one undertook the necessary ocean-based research until very recently. Earth resources satellites have helped somewhat, but nothing could replace the evidence that emerged with deep drilling of the seabed. Therefore I wonder what has sparked the sudden interest in an idea that has been around for so long?

One possibility is the large amount of data that the international geological community required to prove the theory beyond doubt, coupled with the fact that this sort of research has little in the way of an obvious immediate practical benefit. It is extremely expensive to undertake deep sea drilling and few vessels are equipped for the purpose. Joides Resolution itself will be forty years old next year, having undergone several years' of refit to keep it going. Those areas of sea bed with potential oil or gas deposits may gain high-fidelity surveying, but compared to fossil fuels, fossil biota and sea bed strata research are very much at the whim of international project funding. In the case of the IODP, governments are cutting budgets on what are deemed non-essential projects, so it remains to be seen whether the intended follow-up trips will occur.

It would be disappointing if there was no further research as despite the acceptance of Zealandia, there is still a great deal of disagreement about what is known as the Oligocene Drowning. I first came across the notion of an eighth continent in the excellent 2007 book In Search of Ancient New Zealand, written by geologist / palaeontologist Hamish Campbell and natural history writer Gerard Hutching. The reason that over ninety per cent of Zealandia is underwater is due to the lack of thickness of its continental land mass - only 20-30km - making it far less buoyant than other continents.

But has this submerged percentage varied during the past eighty million years? There are some very divided opinions about this, with palaeontologists, geneticists and other disciplines taking sides with different camps of geologists. These can be roughly summarised as Moa's Ark versus the Oligocene Drowning, or to be more precise, what percentage, if any, of New Zealand's unique plants and animals are locally-derived Gondwanan survivors and how many have arrived by sea or air within the past twenty or so million years?

The arguments are many and varied, with each side claiming that the other has misinterpreted limited or inaccurate data. If Zealandia has at any time been entirely submerged, then presumably next to none of the current fauna and flora can have remained in situ since the continent broke away from Gondwana. The evidence for and against includes geology, macro- and micro-fossils, and genetic comparisons, but nothing as yet provides enough certainty for a water-tight case in either direction. In Search of Ancient New Zealand examines evidence that all Zealandia was under water around twenty-three million years ago, during the event known as the Oligocene Drowning. However, Hamish Campbell's subsequent 2014 book (co-written with Nick Mortimer) Zealandia: Our continent revealed discusses the finding of land-eroded sediments during this epoch, implying not all the continent was submerged.

It's easy to see why experts might be reticent to alter their initial stance, since in addition to the conservative nature of geology there are other non-science factors such as patriotism at stake. New Zealand's unusual biota is a key element of its national identity, so for New Zealand scientists it's pretty much a case of damage it at your own peril! In 2003 I visited the predator-free Karori Wildlife Reserve in Wellington. Six years later it was rebranded as Zealandia, deliberately referencing the eighth continent and with more than a hint of support for Moa's Ark, i.e. an unbroken chain of home-grown oddities such as the reptile tuatara and insect weta. With the nation's reliance on tourism and the use of the '100% Pure New Zealand' slogan, a lot rests on the idea of unique and long-isolated wildlife. If the flightless kakapo parrot for example turns out not to be very Kiwi after all, then who knows how the country's reputation might suffer.

What isn't well known, even within New Zealand, is that some of the best known animals and plants are very recent arrivals. In addition to the numerous species deliberately or accidentally introduced by settlers in the past two hundred years, birds such as the silvereye / waxeye (Zosterops lateralis) and Welcome swallow (Hirundo neoxena) are self-introduced, as is the monarch butterfly.

The volcanic island of Rangitoto in Auckland's Hauraki Gulf is only about six centuries old and yet - without any human intervention - has gained the largest pohutukawa forest in the world, presumably all thanks to seeds spread on the wind and by birds. Therefore it cannot be confirmed with any certainty just how long the ancestors of the current flora and fauna have survived in the locality. A number of New Zealand scientists are probably worried that some of the nation's best-loved species may have arrived relatively recently from across the Tasman; a fossil discovered in 2013 suggests that the flightless kiwi is a fairly close cousin of the Australian emu and so is descended from a bird that flew to New Zealand before settling into an ecological niche that didn't require flight.

Other paleontological evidence supports the Moa's Ark hypothesis: since 2001 work on a lake bed at St Bathans, Central Otago has produced a wide range of 16 million year-old fossils, including three bones from a mouse-sized land mammal. The diversity of the assemblage indicates that unless there was some uniquely rapid colonisation and subsequent speciation, there must have been above-water regions throughout the Oligocene. In addition, whereas the pro-underwater faction have concentrated on vertebrates, research into smaller critters such as giant land snails (which are unable to survive in salt water conditions) supports the opposite proposition.

So all in all, there is as yet no definitive proof one way or the other. What's interesting about this particular set of hypotheses is the way in which an array of disciplines are coming together to provide a more accurate picture of New Zealand's past. By working together, they also seem to be reducing the inertia that has led geology to overlook new ideas for far too long; Zealandia, your time has come!