Searching for the dirty truth

20 August 2015 by Louise de Bruin

Wildlife endocrinology is a very important research area as it provides valuable information about the regulating systems of reproductive functions and responses to stressors in animals. An understanding of these systems contributes to conservation efforts by providing insights into the influence of environmental factors on breeding rate or by supporting the development of assisted reproductive technologies.

Monitoring reproductive functions and responses to stressors in wildlife can, however, be challenging – especially when working with elusive and dangerous animals such as elephants, rhinos or tigers. The process of capturing wildlife to collect blood samples usually causes a stress response, making it difficult to determine natural cause-and-effect relationships. Furthermore, frequent blood sampling may be harmful, particularly to very small animals such as the African spiny mouse or the sengi.

Although hormones were predominantly measured in serum and plasma in the past, non-invasive methods have gained popularity over the past 30 years as a more practical approach for assessing ovarian, testicular and, more recently, adrenocortical activity in elusive wildlife species. Nowadays, the hormone matrices most commonly used include urine, faeces, saliva, feathers and hair.

The Endocrine Research Laboratory (ERL), in the Department of Anatomy and Physiology in the Faculty of Veterinary Science, has established numerous non-invasive tests for a wide range of species. Since it opened its doors in 2009, the ERL has been pioneering new techniques in Africa. The core work of the laboratory involves non-invasive endocrine monitoring of faecal samples from a wide variety of wild and domestic animals. The ERL is headed by the Section Head of Physiology, Prof André Ganswindt.

While non-invasive hormone measurement is a favoured choice among many endocrinologists, one has to keep in mind that hormone metabolism and excretion are highly species-specific processes. Since this specificity even applies to closely related species, tests must be validated for every new species studied. Prof Ganswindt explains that only certain types of hormone, or rather their metabolites, can be quantified. The ERL focusses on the quantification of steroids because other compounds, such as protein hormones, are completely degraded by the time defecation takes place.

The idea of working with faeces may not be a pleasant one for some, but the truth is that, logistically, it is the best hormone matrix that can be collected without disturbing the animal. Faeces can provide information about female and male reproductive status, as well as adrenocortical function as a measure of stress. For example, Prof Ganswindt’s team are able to determine pregnancy in white rhinos by comparing the levels of progestogens, and to examine the welfare implication of dehorning by monitoring glucocorticoid concentrations. ‘These approaches will contribute towards our efforts to help endangered species like the rhino,’ says Ganswindt.  

Stress can be defined as a state of perturbed homeostasis that usually leads to a range of adaptive mechanisms aimed at protecting the affected individuals. During this biochemical process, signals from a region in the brain called the hypothalamus trigger the adrenal glands to secrete glucocorticoids, which are hormones that produce an array of effects in response to stress. This response can be caused by a perceived threat, disease or injury. Social stress can also be monitored, which can be useful in, for example, buffalo to ascertain the implications of the separation of an individual from its herd. While this process is the body’s natural way of protecting itself in times of danger or discomfort, Prof Ganswindt explains that prolonged periods of stress can have negative effects on the animal’s health.

While faecal hormone analysis provides valuable insights into the endocrinology of animals, it seems to be telling researchers a lot more than that. A previous study that established a method for monitoring stress in crocodiles is now serving as a proxy for determining water health across South Africa. Faecal samples from crocodiles are currently collected in pristine areas and in areas prone to pollution. A comparison of stress-related hormone levels in those crocodiles will provide critical information on the status of South African water and what it means for the health of our ecosystems.

Prof Ganswindt collaborates closely with a number of international researchers and readily shares his expertise with this research community. In 2010, he and some of his international colleagues founded the International Society of Wildlife Endocrinology (ISWE). Prof Ganswindt is the deputy chairperson of the Society and will also be a keynote speaker at the 2015 ISWE Conference in Berlin, Germany, later this year.

The connection facilitated by the ISWE between the ERL and the international research community has created great opportunities for researchers around the world. The ERL’s vast and continually growing collection of sample material will serve as a platform for those wanting to conduct further studies. This collection forms the basis of a database that is readily available to researchers involved in similar projects.

The species on which Prof Ganswindt and his team have collected information include elephant, rhinoceros, African buffalo, wildebeest, zebra, crocodile, cheetah, wild dog, aardwolf, sengi, bat-eared fox, bush baby, mole-rat, and even great white shark. Forthcoming projects include international collaborations with research groups from India, Australia and Canada, on tigers, sugar gliders and ground squirrels, respectively.

The work of the ERL enables collaboration across faculties, particularly with the Faculty of Natural and Agricultural Sciences’ Department of Zoology and Entomology. Prof Ganswindt also serves as a research associate at the National Zoological Gardens in Pretoria, where further collaborative projects, predominantly on birds, are being conducted. A satellite facility is located at the zoo, where studies on penguins and ground hornbills will commence towards the end of this year.

Ganswindt holds an NRF C1 rating. His work features regularly in a wide range of publications, both academic and commercial. 

 

Prof Andre Ganswindt

August 20, 2015

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Researchers
  • Professor André Ganswindt
    Professor André Ganswindt has been involved in research at the University of Pretoria (UP) for the past 15 years, since completing his PhD at the University of Münster in Germany.

    He says he chose to do research at a university in South Africa because the country has great potential and easy access to rich fauna, and that he chose UP because it supported his idea of establishing a specialised lab to support his field of expertise. To date, the Endocrine Research Laboratory is the only facility of its kind in Southern Africa. Prof Ganswindt regularly collaborates with colleagues in the Departments of Zoology and Entomology and Animal Science, as well as in the Health and Veterinary Science faculties.

    He studies behavioural endocrinology in mammals, reptiles and birds to address questions concerning regulative endocrine mechanisms, which in combination with other factors, like social or ecological changes, influence and control animal behaviour.

    Prof Ganswindt and his research group of postgraduate students are developing and validating non-invasive tools for monitoring reproductive function and responses to stressors in captive and free-ranging animals, and interlinking these approaches with studies on animal conservation, climate change, human-wildlife conflict, land transformation and urbanisation. It often leads to a cross-disciplinary approach of physiological-endocrine research, behavioural biology and wildlife ecology to improve the management and welfare of animals in zoological institutions as well as in the wild.

    This field of research contributes meaningfully to efforts to conserve wildlife, and in so doing, helps to protect ecological health on Earth. “Research, including mine, does not matter per se,” says Prof Ganswindt. “It only starts to matter if the findings contribute to a better understanding and (social) interaction with ourselves, our peer-group, related society and the world as a whole.”

    Prof Ganswindt says his research group has created a collaborative network of locally and globally recognised experts that focus on many aspects of mammal-oriented research, with several opportunities for basic and applied science, professional development, and relevant theoretical and practical training for undergraduate and postgraduate students.

    Having a large group of research students, about 10 PhD and 10 MSc students at any given time, means new research projects are continuously being initiated. Prof Ganswindt says a recent highlight was the inclusion of marine mammals in their research portfolio. Another recent PhD project non-invasively assessed trace elements to evaluate African savannah ecosystem health.

    The professor’s passion for his field of research stems from his fascination as a young child with the wildlife documentaries produced by Heinz Sielmann and marine conservation pioneer Jacques Cousteau. “I wanted to become a biologist ever since.”

    His academic role model is British evolutionary biologist and author Richard Dawkins. “In my opinion, he is an awesome thinker with fantastic discussion skills. Within UP, I would refer to Prof Nigel Bennett as my mentor, as he is not only a brilliant scientist, but also a very kind and supportive colleague.

    Prof Ganswindt advises school learners or undergraduates who are interested in his field to follow their heart if they know what they want to do. “Where there is will, there is a way. If you are not exactly sure what you want to do, try to create a list of what you don’t want – it narrows down the path.”

    As for recreation, he is interested in philosophy and is a keen CrossFitter.
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