A carbon economy can help save our species too

20 05 2013

money treeWe sent out this media release the other day, but it had pretty poor pick-up (are people sick of the carbon price wars?). Anyway, I thought it prudent to reprint here on CB.com.

Will Australia’s biodiversity benefit from the new carbon economy designed to reduce greenhouse gas emissions? Or will bio-’perversities’ win the day?

“Cautious optimism” was the conclusion of Professor Corey Bradshaw, Director of Ecological Modelling at the University of Adelaide’s Environment Institute. He is lead author of a new paper published in the journal of Biological Conservation which reviewed the likely consequences of a carbon economy on conservation of Australian biodiversity.

“In most circumstances these two very important goals for Australia’s future - greenhouse gas emissions reduction and biodiversity conservation – are not mutually exclusive and could even boost each other,” Professor Bradshaw says.

“There are, however, many potential negative biodiversity outcomes if land management is not done with biodiversity in mind from the outset.”

The paper was contributed to by 30 Australian scientists from different backgrounds. They reviewed six areas where Australia’s Carbon Farming Initiative could have the greatest impact on biodiversity: environmental plantings; policies and practices to deal with native regrowth; fire management; agricultural practices; and feral animal control.

“The largest biodiversity ‘bang for our buck’ is likely to come from tree plantings,” says Professor Bradshaw. “But there are some potential and frightening ‘bioperversities’ as well. For example, we need to be careful not to plant just the fastest-growing, simplest and non-native species only to ‘farm’ carbon.

“Carbon plantings will only have real biodiversity value if they comprise appropriate native tree species and provide suitable habitats and resources for valued fauna. Such plantings could however risk severely altering local hydrology and reducing water availability.”

Professor Bradshaw says carefully managing regrowth of once-cleared areas could also produce a large carbon-sequestration and biodiversity benefit simultaneously. And carbon price-based modifications to agriculture that would benefit biodiversity included reductions in tillage frequency, livestock densities and fertiliser use, and retention and regeneration of native shrubs. Read the rest of this entry »


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Categories : Australia, biocarbon, biodiversity, biosequestration, carbon, carbon trading, climate change, climate shift, connectivity, conservation, deforestation, ecosystem function, ecosystem services, environmental policy, fire, fragmentation, habitat loss, harvest, invasive species, kangaroo, livestock, logging, reforestation, restoration

Learning from danger

13 05 2013
Guanaco fleeing
Study vehicle, a group of vicuñas and a guanaco in San Guillermo National Park (San Juan, Argentina) [courtesy of Marco Escudero]. Guanacos and vicuñas are native to South America, and are the ancestors of domesticated llamas and alpacas – which are exploited for their meat, milk and wool. Both species form monotypic genera. They have discontinuous distributions in Argentina, Bolivia, Chile and Peru, with introduced populations in Paraguay (guanaco) and Ecuador (vicuña). Population estimates are > 500,000 (guanaco) and > 300,000 (vicuña), the latter restricted to high-altitude ecosystems. They are ‘Least Concern’ for the IUCN but, given their low population growth rates (fertility = 1 offspring/female/yr), guanacos and vicuñas are targeted by conservation programs in all their native countries.

Many of us might have stumbled twice on the same stone, yet learnt to be wary of future situations of similar risk. Likewise, wild animals can be predisposed to flee when faced with already known predators (or threats in general). The type and magnitude of their evasive response depends on predator distance, speed and body size (1). Regardless, prey need to assess predation risk in a matter of seconds (or even shorter than that), i.e., balancing the benefits and costs of fleeing.

The benefits all boil down to survival, but the costs might include moving away from offspring, loss of access to fresh and abundant food, or spending precious metabolic energy (2). The methods ecologists use to study animal flight behaviour in the wild are rife with nuisances (3), yet they represent a tool for quantifying wildlife stress resulting from a variety of human activities.

Equipped with our modern technological kit (weapons, vehicles, GPS, etc.), humans behave like genuine predators and can trigger the range of flight behaviours displayed by their potential prey. In that context, Emiliano Donadio and Steve Burskirk (4) studied flight behaviour of guanacos (Lama guanicoe) and vicuñas (Vicugna vicugna) in the Argentinean open plains (‘llanos’). They monitored 2 protected areas under weak surveillance and subject to illegal hunting: the Laguna Brava Provincial Reserve and the San Guillermo Biosphere Reserve (treatment = H); and one area free of hunting and only exposed to guided visits with strict entry/exit times: the San Guillermo National Park (treatment = NH). The ecologists did 3 transects per study area. When they encountered a group of camelids, they classified three types of flight behaviour (alert without fleeing, walking away, galloping away), and measured flight time (between vehicle detection and initiation of flight behaviour) and flight distance (between the vehicle and the individuals when initiating flight behaviour). Read the rest of this entry »


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Categories : conservation, harvest, predator, protected area, South America

Take credit for your work

6 05 2013

passive voice ninjaIf science is the best way to reduce subjectivity when asking a question of how something works, then an inherently essential aspect of this is getting your message across to as many people and as clearly as possible. And as CB readers will know, I’m all about ‘getting the message out’.

As such, when asked by a stranger about what I do, I often respond ‘writer’, because perhaps next to maths, I spend most of my time writing. I tend to argue that without good oral and (especially) written communication skills, even the most brilliant scientist is functionally useless to the rest of society.

So being a writer means that focussing on what some would describe as mundane – spelling, grammar, writing style and clarity – is an essential preoccupation. I’ve written about grammatical and style issues before (see here and here), and in the spirit of providing tips to young scientists out there, here’s another suggestion.

Please, please, please use your own voice.

I’m talking about that archaic style of zombie writing that has plagued scientific writing since its inception – the passive voice.

Read the rest of this entry »


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Categories : science, science communication, scientific publishing, scientific writing

Seven signs your country has an environmental problem

29 04 2013

1. It’s almost always hazy – and not just in the cities. The particulate matter pollution makes even sunny days appear like it’s about to rain. To add insult to injury, almost every advertisement with anything to do with ‘outside’ pictures a pristinely blue sky and copious sunshine, without the hint of grey. When stepping off the aeroplane, the distinct taste of tar hits the back of your throat.

2. You can’t drink the water from the tap – not anywhere. In fact, you can’t even brush your teeth with it or risk getting some nasty intestinal parasite.

3. You can’t plant trees fast enough because the frequency of landslips kills hundreds of people yearly.

4. While catching a taxi from the airport, the driver plays a continuous loop of birds singing, because most residents never hear those sounds.

5. You have an economy in over-drive, and yet you still think of yourself as ‘developing’.

6. Emerging infectious disease jumping from livestock to humans is now a near-regular occurrence, with new and weird diseases that threaten to become human pandemics and mutating with alarming speed popping up everywhere. Read the rest of this entry »


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Categories : anthropocene, Asia, China, conservation, deforestation, great firewall of China

Touchy-feely ecologists

18 04 2013

happy scientistOne of the many reasons I started this blog nearly five years ago was to engage both minds and hearts that my (and my colleagues’) scientific journal papers were failing to do. Of course we have emotional attachment to our areas of expertise (I’ve never met a good scientist who wasn’t passionate about what they studied) – but as Alejandro Frid encourages – we just have to transmit that emotional component better to our fellow human beings.

The title is not a joke about sensitive, New Age guys. I am quite serious about it. Though no academic superstar, I have been publishing in ecological and conservation journals for almost twenty years. I love the discipline. I’d hate to see it fail.

What I am talking about is this: ecologists read and write about ‘extinction’, ‘over-exploitation’, ‘climate change’ and so forth as a matter of routine. Yet at the same time, science journals are full of examples of how resources can be used more sustainably, of human behaviours that reduce the greenhouse gases that alter the climate and acidify the oceans, and of alternative economic models that value a healthy biosphere. So why do consumer apathy and political inertia still run the same old show?

I know, I know. Social scientists are working hard on this question (check out, for instance, just about any issue of Nature Climate Change). But what matters is not the rigorous answer that they might produce (we already know that it is 42 - Douglas Adams couldn’t be wrong); it is instead that most non-scientists probably don’t even care about the question. Read the rest of this entry »


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Categories : conservation, science communication

Help us restore a forest

12 04 2013

plantingI’m not usually one to promote conservation volunteer opportunities, but this is a little different. First, I’m involved in this one, and second, it’s very near to my home. As you might know, the Mount Lofty Ranges area has had about 90 % of its forests destroyed since European settlement, with a corresponding loss of ecosystem services. We need smart restoration on massive scale, and Monarto is one place where we can develop the best practices to achieve this goal. We really do need some help here, so I encourage anyone in the Adelaide area with an interest in evidence-based forest restoration to lend us a hand.

The Monarto Restoration Project will provide an internationally recognised opportunity to experience and engage with wild Australia as it was.

Our aim is restore and expand habitats at Monarto to represent what used to exist in the region before clearing for agriculture and the introduction of pest species. Monarto used to be teeming with wildlife. The remnant vegetation at Monarto is unique as it is located at the cross-over of two vegetation communities (the Mt Lofty Ranges and Murray Mallee). This means it provides important habitat for a range of threatened bird and plant species. However, there are still a number of species in danger of being lost from the area, so we need to focus on restoring habitat to support them too.

We provide an opportunity to see the bush in a way that is no longer possible in most parts of Australia. We hope to help you see what we have lost and encourage you to participate in conservation. It gives us the opportunity to include everyone in on-ground conservation work and pass on skills that can be applied beyond a day or this project. With your help we can reduce the impacts of pest species on the property and re-introduce some of the native species that are now locally extinct. Read the rest of this entry »


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Categories : biocarbon, biodiversity, biosequestration, carbon, climate change, conservation, deforestation, habitat loss, monitoring, pollination, reforestation, research, restoration, science, South Australia, southern Australia, The University of Adelaide

Software tools for conservation biologists

8 04 2013

computer-programmingGiven the popularity of certain prescriptive posts on ConservationBytes.com, I thought it prudent to compile a list of software that my lab and I have found particularly useful over the years. This list is not meant to be comprehensive, but it will give you a taste for what’s out there. I don’t list the plethora of conservation genetics software that is available (generally given my lack of experience with it), but if this is your chosen area, I’d suggest starting with Dick Frankham‘s excellent book, An Introduction to Conservation Genetics.

1. R: If you haven’t yet loaded the open-source R programming language on your machine, do it now. It is the single-most-useful bit of statistical and programming software available to anyone anywhere in the sciences. Don’t worry if you’re not a fully fledged programmer – there are now enough people using and developing sophisticated ‘libraries’ (packages of functions) that there’s pretty much an application for everything these days. We tend to use R to the exclusion of almost any other statistical software because it makes you learn the technique rather than just blindly pressing the ‘go’ button. You could also stop right here – with R, you can do pretty much everything else that the software listed below does; however, you have to be an exceedingly clever programmer and have a lot of spare time. R can also sometimes get bogged down with too much filled RAM, in which case other, compiled languages such as PYTHON and C# are useful.

2. VORTEX/OUTBREAK/META-MODEL MANAGER, etc.: This suite of individual-based projection software was designed by Bob Lacy & Phil Miller initially to determine the viability of small (usually captive) populations. The original VORTEX has grown into a multi-purpose, powerful and sophisticated population viability analysis package that now links to its cousin applications like OUTBREAK (the only off-the-shelf epidemiological software in existence) via the ‘command centre’ META-MODEL MANAGER (see an examples here and here from our lab). There are other add-ons that make almost any population projection and hindcasting application possible. And it’s all free! (warning: currently unavailable for Mac, although I’ve been pestering Bob to do a Mac version).

3. RAMAS: RAMAS is the go-to application for spatial population modelling. Developed by the extremely clever Resit Akçakaya, this is one of the only tools that incorporates spatial meta-population aspects with formal, cohort-based demographic models. It’s also very useful in a climate-change context when you have projections of changing habitat suitability as the base layer onto which meta-population dynamics can be modelled. It’s not free, but it’s worth purchasing. Read the rest of this entry »


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Categories : climate change, conservation, conservation biology, disease, extinction, genetics, management, mathematics, metapopulation, minimum viable population, population dynamics, population viability analysis, protected area, PVA, research, reserve, software

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