Rowan Sprague scite author profile

The use of DNA data is ubiquitous across animal sciences. DNA may be obtained from an organism for a myriad of reasons including identification and distinction between cryptic species, sex identification, comparisons of different morphocryptic genotypes or assessments of relatedness between organisms prior to a behavioural study. DNA should be obtained while minimizing the impact on the fitness, behaviour or welfare of the subject being tested, as this can bias experimental results and cause long-lasting effects on wild animals. Furthermore, minimizing impact on experimental animals is a key Refinement principle within the ‘3Rs’ framework which aims to ensure that animal welfare during experimentation is optimised. The term ‘non-invasive DNA sampling’ has been defined to indicate collection methods that do not require capture or cause disturbance to the animal, including any effects on behaviour or fitness. In practice this is not always the case, as the term ‘non-invasive’ is commonly used in the literature to describe studies where animals are restrained or subjected to aversive procedures. We reviewed the non-invasive DNA sampling literature for the past six years (380 papers published in 2013-2018) and uncovered the existence of a significant gap between the current use of this terminology (i.e. ‘non-invasive DNA sampling’) and its original definition. We show that 58% of the reviewed papers did not comply with the original definition. We discuss the main experimental and ethical issues surrounding the potential confusion or misuse of the phrase ‘non-invasive DNA sampling’ in the current literature and provide potential solutions. In addition, we introduce the terms ‘non-disruptive’ and ‘minimally disruptive’ DNA sampling, to indicate methods that eliminate or minimise impacts not on the physical integrity/structure of the animal, but on its behaviour, fitness and welfare, which in the literature reviewed corresponds to the situation for which an accurate term is clearly missing. Furthermore, we outline when these methods are appropriate to use.

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Predatory hoverflies increase oviposition in response to colour stimuli offering no reward: Implications for biological control

Day

Hickman

Sprague

et al. 2015

Basic and Applied Ecology

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Please cite this article as: Day, R. L., Hickman, J. M., Sprague, R. I., and Wratten, S. D.,Predatory hoverflies increase oviposition in response to colour stimuli offering no reward: implications for biological control, Basic and Applied Ecology (2015), http://dx.doi.org/10.1016/j.baae. 2015.05.004 This is a PDF file of an unedited manuscript that has been accepted for publication. As a service to our customers we are providing this early version of the manuscript. The manuscript will undergo copyediting, typesetting, and review of the resulting proof before it is published in its final form. Please note that during the production process errors may be discovered which could affect the content, and all legal disclaimers that apply to the journal pertain. Page 1 of 25A c c e p t e d M a n u s c r i p t

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Assessing the utility of aerial imagery to quantify the density, age structure and spatial pattern of alien conifer invasions

2019

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Rowan Sprague

Applying ecological research to improve long-term outcomes of wilding conifer management

Integrating across knowledge systems to drive action on chronic biological invasions

Blood, sweat and tears: a review of non-invasive DNA sampling

Predatory hoverflies increase oviposition in response to colour stimuli offering no reward: Implications for biological control

Assessing the utility of aerial imagery to quantify the density, age structure and spatial pattern of alien conifer invasions

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