Flawed method puts tiger rise in doubt, study calls for new approach

02 Mar 2015


Flaws in a method commonly used in censuses of tigers and other rare wildlife put the accuracy of such surveys in doubt, a new study suggests.

A team of scientists from the University of Oxford, Indian Statistical Institute, and Wildlife Conservation Society exposes, for the first time, inherent shortcomings in the 'index-calibration' method that means it can produce inaccurate results.

Amongst recent studies thought to be based on this method is India's national tiger survey (January 2015), which claimed a surprising but welcome 30-per cent rise in tiger numbers in just four years.

The team urges conservation practitioners to guard against these sources of error, which could mislead even the best conservation efforts, and suggests a constructive way forward using alternative methods of counting rare animals that avoid the pitfalls of the index-calibration approach.

A report of the research is published this week in the journal Methods in Ecology and Evolution.

Index-calibration often relies on measuring animal numbers accurately in a relatively small region using reliable, intensive and expensive methods (such as camera trapping) and then relating this measure to a more easily obtained, inexpensive indicator (such as animal track counts) by means of calibration.

The calibrated-index is then used to extrapolate actual animal numbers over larger regions.

This approach has been popular among wildlife conservation agencies to generate animal numbers at a regional and national level. These numbers are then used to inform conservation efforts and direct resources worth millions of pounds.

To investigate index-calibration the team created a mathematical model describing the approach and then tested its efficiency when different values, representing variations in data, were inputted.

Under most conditions the model was shown to lose its efficiency and power to predict.

The team then tested this mathematical model on a real world example: attempting to derive tiger numbers from fieldwork data.

The index-calibration model was shown to be unreliable again, with any high degree of success shown to be down to chance, rather like being dealt a single incredibly 'high value' poker hand, that could not be replicated.

Arjun Gopalaswamy, lead author of the report from the Wildlife Conservation Research Unit at Oxford University's Department of Zoology, says, "Our study shows that index-calibration models are so fragile that even a 10-per cent uncertainty in detection rates severely compromises what we can reliably infer from them. Our empirical test with data from Indian tiger survey efforts proved that such calibrations yield irreproducible and inaccurate results."

Gopalaswamy adds, "Index-calibration relies on the assumption that detection rates of animal evidence are high and unvarying. In reality this is nearly impossible to achieve. Instead, there are many flexible approaches, developed over the past decade by statistical ecologists, which can cut through noisy 'real world' data to make accurate predictions."

Dr Ullas Karanth, a co-author from the Wildlife Conservation Society, and a member of India's National Tiger Conservation Authority, says, "This study exposes fundamental statistical weaknesses in the sampling, calibration and extrapolations that are at the core of methodology used by the government to estimate India's numbers, thus undermining their reliability. We are not at all disputing that tigers numbers have increased in many locations in India in last eight years, but the method employed to measure this increase is not sufficiently robust or accurate to measure changes at regional and country wide levels."

Professor Mohan Delampady, a co-author from the Indian Statistical Institute, says, "The findings have wider consequences for several applied sciences where sampling and direct extrapolation is involved, especially when sampling errors are influenced by unknown detection probabilities."

Professor David Macdonald, a co-author and the founding Director of the Wildlife Conservation Research Unit at Oxford University's Department of Zoology, says, "This is a breakthrough which will dramatically change how we count wildlife numbers in the future."

He adds, "Index-calibration can work well, if the correlations are tight and consistent, but often they aren't, and many of us, myself included, for example in the context of estimating numbers of mink and water voles in the UK, have been using the technique without appreciating its risks. Our intention is to help conservationists by highlighting the conditions when index calibration can be misleading. Everybody will benefit from greater accuracy when it comes to counting rare animals."

The team says that the aim of the study is to help ecologists and conservationists to address the global challenge of counting rare and elusive animals.

The good news is that the mathematical model created by the team provides the crucial 'link' between some of the older methods (which don't estimate detection rates) with some of the newer methods (which do estimate detection rates). The findings will help in the reanalysis of raw data from wildlife research. The study also recommends that estimates from future surveys will be most reliable if designed, a priori, keeping in mind the power of modern, robust, modelling approaches.

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