TROUBLED WATERS - Whale and Dolphin Conservation Society

The concept of stress
Animals rely on behavioural and physiological mechanisms, which enable them to maintain
homeostasis in response to external and internal stimuli. These regulatory mechanisms have optimum
and maximum tolerance ranges, which depend largely on a species’ evolutionary history, but can be
moderated by individual genetic make-up, as well as short and long-term history. Environmental
stimuli, which fall outside an animal’s adaptive range with regard to duration, intensity or frequency,
or because of the nature of the stimulus itself, are associated with pathology and reduced survival.
These ‘overtax’ behavioural and physiological control systems and are referred to as ‘stress’ (Broom
and Johnston 1993).
Stressful conditions, such as confrontation with a predator or rival, disturb homeostasis and result in
profound physiological and behavioural changes, which involve complex interrelated hormonal,
metabolic, neural and neuroendocrine responses (e.g., Toates 1995). The main transmitter substances
and hormones involved include glucocorticoids (cortisol, corticosterone), the mineralocorticoid
aldosterone, catecholamines (adrenaline and noradrenaline), insulin, thyroid and growth hormone.
During stress the body mobilises carbohydrates and fatty acids to provide energy. At the same time
blood pressure, cardiac and respiratory rate increase. This provides the efficient transport of vital
nutrients to the skeletal and cardiac muscles. Less immediately important processes such as digestion,
immune defence, reproduction and growth are inhibited to further maximise available energy. These
changes are independent of physical activity.
Psychological stimuli, including fear, elicit strong adrenal responses and an assessment of how stimuli
are perceived is therefore critical. Mason (1971) emphasised the psychological dimensions of all
animal treatments (see also Toates 1995 and von Holst 1998) and considers it virtually impossible to
avoid the psychological element of physical stressors.
Physiological indicators of stress and their interpretation
Stressful situations cause behavioural and physiological changes that can be gauged through a range
of biological indicators. Measurements of cardiac and respiratory rate, body temperature, as well as a
number of physiological, haematological and biochemical profiles can provide important information
about whether or not an animal is stressed. Interpreting biological parameters used to assess the
impact of potentially stressful conditions is not always straightforward, and several indicators should
be employed to avoid misleading results. The importance of accurate baselines against which
experimental measurements can be compared is critical. Even without visible signs of stress,
biochemical and physiological profiles may be affected, and haematological assessment should,
therefore, consider sex, nutritional state, circadian rhythms, seasonal variation, and physiological
state. Sampling itself can have effects and lead to persistently overestimated baseline levels. The same
is true for animals that are already stressed when samples are taken. Sampling method, sample
preparation and storage may affect samples.
Stress associated with pursuit
Acute stress on capture may bring about short and long-term morbidity and mortality in both
domestic and wild species (Mitchel et al. 1988). Hyperthermia, profuse sweating, hyperventilation,
hypotension and degrees of skeletal and cardiac muscle damage are common post-chase and postcapture
conditions.
The potential stress effects of whaling and the welfare implications for hunted cetaceans
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