EFFECTS OF INCREASING TEMPERATURE ON SOCIAL
   BEHAVIOUR IN TERRITORIAL GROUPS OF
  PUMPKINSEED SUNFISH, LEPOMIS GIBBOSUS

              MARY E. POWER

Boston University Marine Program, Marine Biological Laboratory,
        Woods Hole, Mass. 02543, USA

                   &

               JOHN H. TODD

       New Alchemy Institute, PO Box 432,
        Woods Hole, Mass. 02543, USA

ABSTRACT

To study the effect of thermal stress on their social behaviour, ten territorial groups of
pumpkinseed sunfish, Lepomis gibbosus, were subjected to a 1 "C temperature
increase every other day until they succumbed. Social behaviour remained remarkably
unchanged by thermal stress until nearly lethal levels. As temperature rose, ritualised
behaviours increased in frequency, then fell ox probably rejecting changes in general
activity.
Behavioural and physiological signs of stress appeared from 31 to 38 "C. Events
during these social breakdowns are described and compared with the response of two
other freshwater $shes with different social organisations subjected to the same
thermal regime.

INTRODUCTION

Todd et al. (1972) have postulated that behaviourally complex fish may be less
resistant to stress than fishes with simpler social behaviours. Based on the number of
behaviours human observers could distinguish (similar, cross-class comparisons of
$he number of displays shown by vertebrates have been made in a discussion of the
evolution of displays by Moynihan (1970)), Todd et al. designated the following
hierarchy of behavioural complexity for three fishes which live in temperate
freshwater ponds.
(1) The yellow bullhead, Zctalurus natalis, was the most complex. Todd (1968) has
shown this species to exhibit many complex behaviours, non-parental co-operation
and individual recognition. His group has described 64 units of bullhead social
behaviour.

                       217
Enuiron. Pollut. (IO) (1976)-0 Applied Science Publishers Ltd, England, 1976
Printed in Great Britain

MARY E. POWER, JOHN H. TODD

218

(2) The pumpkinseed sunfish, Lepomis gibbosus, was intermediate in complexity.
Miller (1964) first described this species' behaviour, which seems more stereotyped
than the bullheads. Using methods and criteria similar to those employed in
bullhead observations, we distinguished 30 units of pumpkinseed social behaviour.
(3) The golden shiner, Notemigonus crysoleucas, was designated the simplest fish.
Interactions between individuals were uncommon in this schooling minnow and,
when they did occur, took eleven forms. Units which describe group activity are
necessary in order to record shiner social behaviour, and eleven such units were
described (Power, 1974).
In the first of a series of comparative studies of these fishes, the social behaviour of
groups of yellow bullheads was seriously disrupted by sublethal thermal stress
(McLarney et al., 1974). To test the predicted correlation between stressvulnerability
and social behaviour, groups of pumpkinseed sunfish and golden shiners were
studied under the same schedule of increasing temperature as was used in the
bullhead study. This paper reports behavioural changes observed in the
pumpkinseed sunfish.

METHODS AND MATERIALS

Thirteen groups of pumpkinseed sunfish (Lepomis gibbosus), six with three
individuals and seven with two, were studied 1 during the summer andiautumnl of
1972 and 1973. Members of each group were size-matched and interchanged until
each resident could defend a territory. Individuals were distinguished by small,
naturally-occurring imperfections like fin notches. Each group was housed in a 190-
litre aquarium. All aquaria were held in rooms where ambient disturbances were
minimal. In 1972 a 10-on/l4-off light cycle was imposed to inhibit reproductive
behaviour. This proved unnecessary, and in 1973 all groups were held under natural
lighting. A 3-holed concrete block was placed off-centre in each tank. Ammonia
levels were kept below 0.1 ppm by subsand filtration and water replacement. Only
materials not expected to give off harmful by-products within the temperature range
of the study (20-40°C) were used in aquaria: oyster shell, well-leached concrete,
silicone rubber cement, glass, fibreglass, and polyethylene tubing for air delivery.
Supplementary air piped into the tanks kept oxygen levels near saturation. Fish were
fed daily, to satiation, on freshwater mussels, earthworms and trout chow.
Three groups-two with three fish and one with two-were kept as controls at
22-24 "C. After several weeks of observation at this temperature, the remaining
groups were subjected to a temperature increase of 1 "C every other day until the fish
succumbed. (Adjusting the heaters upwards usually effected this temperature
increase within 5 h). Immediately before temperatures were raised in a tank, the
social behaviour of its residents was recorded in coded units for 15 min (see Miller,
1964 and Power, 1974 for complete descriptions of the behavioural units).

TEMPERATURE EFFECTS ON SOCIAL BEHAVIOUR OF SUNFISH

219

RESULTS

Pumpkinseed social behaviour before thermal stress-22-24 "C

Once all residents could defend a territory, each of the thirteen sunfish groups
remained relatively stable over time with respect to social behaviour and territory
patterns. After the behaviour in each social group was stabilised, the residents' social
behaviour was classified as: (i) ritualised; (ii) intense aggressive and (iii) infractive.
Ritualised interactions were most common and occurred between fish of nearly
equal status, each within its own territory. 'Thrusts' occurred near territorial
borders, as fish advanced a short distance directly at a tankmate, then quickly
retreated. Residents often oriented towards each other at territorial boundaries in
slightly tilted postures called face-offs. If they thrust while in such a posture, the
compound unit was recorded as a tilt-thrust.
Intense aggressive behaviour broke out on occasions when such ritual interactions
accelerated until one or both of the participants charged. Charges (called 'rushes' by
Miller, 1964) were short, rapid bursts of swimming directly at a target fish. If charges
culminated in mouth contact, a nip was recorded. During these intensified aggressive
encounters, sunfish briefly violated territorial borders, expended more energy and
may have increased the risk of inflicting damage (although physically damaged living
fish were never seen in territorial groups before they were thermally stressed).
The least frequent category was infractive behaviour. Chases and flees occurred
only on the rare occasions when one fish intruded deeply into the territory of
another. The resident would chase the intruder, swimming rapidly after it for as long
as was necessary in order to expel it. The intruder would flee, swimming and dodging
rapidly until it evaded its pursuer. This fast prolonged swimming cost much energy,
and often culminated in potentially damaging nips.

Pumpkinseed social behaviour during increasing temperature 25-39 "C

No dramatic changes in pumpkinseed groups occurred until tanks were above
31 "C. Ritualised behaviour increased after 27"C, and fell offwhen tanks were within
a few degrees of lethal temperatures, around 34 "C (Fig. 1). Comparison of averaged
frequencies of ritualised behaviours in the low, middle and high temperature ranges
by the sign test showed this trend to be significant at the 0.05 level.
Neither intense aggressive behaviour nor infractive behaviour showed significant
trends over all groups with temperature (Fig. 1). However, striking social changes did
occur in certain groups. Table  1 summarises events which began in certain
experimental tanks one or two centigrade degrees below the temperatures at which
the first resident died.

In five out of the eight tanks in which status differences could be detected, fish
judged to be subordinate because of their smaller territories were the first to show
stress. Physiological signs of stress included 'stress pumping' (increased frequency
and amplitude of respiratory gill cover movements); loss of pitch control, so that

220

MARY E. POWER, JOHN H. TODD

2
3

N:10

s c,

heads dipped down as much as 90"; and loss of opercle spot control so that spots
blanched and darkened erratically with no apparent social significance. (Opercle
blanching is normally a submissive signal in pumpkinseeds.)

In four of the ten experimental tanks, stressed fish were unusually inactive and

   tt
tttt

IO 10 10 9 7 9 8 IO 0 9 8 6
                                I I

t

a

- INTENSE AGGRESSIVE BEHAVIORS

I I I

26 28 30 32 34

(23 TO 24) 24

a

IO L /NFRACT.VE BEHAVIORS

.....

(23 TO 24) 24 26 28 30 32 34

TEMPERA TURE ( O CI

Fig. 1.

Behavioural trends in pumpkinseed sunfish from 23 to 34°C

TEMPERATURE EFFECTS ON SOCIAL BEHAVIOUR OF SUNFISH

22 1

rested on the bottom of compartments of the concrete block, or on the substrate.
(Normally, sunfish hovered above the substrate except when sleeping.)
Another behavioural change was `stress swimming'. Fish would swim tremulously
in rapid spurts, then stop abruptly, sometimes within the territories of their
tankmates. There (if the resident still behaved normally) they suffered nips and
harassment for several seconds before leaving. Such obliviousness to previously
respected territorial borders was in marked contrast to the immediate flight of
detected intruders at lower temperatures.
Near lethal temperatures, tankmates sometimes harassed stressed fish even when
the latter were not in their territories. Unusual harassment was observed in two
tanks, and was inferred from newly frayed fins on a fish found dead in a third (Tank
1).

                        TABLE 1
BEHAVIOURAL AND PHYSIOLOGICAL EVENTS OBSERVED IN FISH DURING SOCIAL BREAKDOWNS, ONE OR
           TWO DEGREES BELOW LETHAL TEMPERATURES (6)

Event 2S4S 14 5 6 7 8 9 10

Subordinate stressed first
Stress pumping
Loss of pitch control
Loss of opercle spot control
Inactivity
Stress swimming
Social oblivion
Unusual harassment

d (lethal temperatures for first resident(s))

- ++-+++-00
- ++++-+-+-
         ++--- +-
                   +- +-
-- +++--- +-

+---

-+++--
- ++++++-+-
-+++------

32 39 33 36 36 35 35 34 35 34

-_-

____--

~ ~~~

+ = event occurred.
- = event not observed.
0 = event irrelevant (no dominance in these tanks).

Within a given tank the period between the onset of obvious social changes and the
first mortality was very short, being often only a matter of hours. Breakdowns were
not observed in three of the ten experimental groups (Tanks 2S, 8 and 10) but may
have occurred undetected. While sunfish behaviour during social breakdowns
seemed very different from behaviour in groups at lower temperatures, the
frequencies of events recorded during these periods were too low to reveal
statistically significant trends. Nevertheless, these low frequency behavioural
changes were critical in terms of the fate of the groups as they approached their lethal
temperatures.

DISCUSSION

Thermal stress had little obvious effect on pumpkinseed sunfish social behaviour
until lethal levels were approached. The trend in ritualised behaviour closely

222

MARY E. POWER, JOHN H. TODD

resembles the curve drawn by Sylvester (1972) for the effect of temperature on the
general activity of fish. Movement brought fish to each other's attention, stimulating
thrusting. Thus, the increase and decline of ritualised behaviour probably reflects
only the activity-temperature relationship to be expected in poikilotherms.
More significant biologically (but not statistically) were the events observed over a
total range of 3 1-38 "C, in some social groups one or two degrees below their lethal
temperatures. Some of the behavioural and physiological signs of stress appearing at
these temperatures resembled events described by other workers studying fish under
sublethal stress. 'Stress pumping' in heated pumpkinseeds may be similar to the
rapid mouth movements which Sparks et al. (19724 have observed in bluegills
(Lepomis macrochirus) exposed to sublethal zinc poisoning. These workers have also
noted social factors in zinc-stressed bluegill groups causing subordinate individuals
to succumb first (Sparks et al., 1972b). Such factors were indicated in five out of eight
pumpkinseed groups with individuals of different status, and might have been more
obvious ifwe had not size-matched the fish at the outset of the study. The harassment
of physiologically stressed individuals by their unaffected tankmates illustrates the
interaction of social and physiological factors contributing to the breakdown of heat
stressed pumpkinseed groups.
In this respect, the pumpkinseed response to thermal stress is intermediate
between that of the yellow bullhead and the golden shiner (Power, 1974). In the latter
study, shiner groups showed no changes in social behaviour attributable to thermal
stress, but only physiological symptoms (spinal deformations, oedema) at 34-35 "C,
one or two degrees below lethal temperatures. In yellow bullhead groups, aggressive
behaviours and the ratio of damaging to non-damaging aggressive acts rose
markedly at 30 "C, nine degrees below lethal temperatures and four to five degrees
below the onset of any signs of physiological stress (Todd et al., 1972; McLarney et
al., 1974). While shiners succumbed to individual physiological failures, and deaths
in the bullhead groups resulted primarily from social factors, pumpkinseed deaths
resulted from an interaction of social and physiological factors in at least seven out
of ten groups. The responses of these three species, of which the pumpkinseed is
intermediate in social complexity, suggest that social factors may become more
important in responses to stress as social complexity increases.

ACKNOWLEDGEMENTS

The authors are indebted to Stewart Jacobson, who provided advice and criticism
throughout the study. Ivan Valiela and Woollcott Smith made helpful suggestions
regarding data analysis, and Robert Jeanne criticised the manuscript. This work was
carried out while the authors were at the Woods Hole Oceanographic Institution,
under support by Atomic Energy Commission Grant 11-1/3567 to J.H.T.

TEMPERATURE EFFECTS ON SOCIAL BEHAVIOUR OF SUNFISH

223

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MOYNIHAN, M. (1970). Control, suppression, decay, disappearance and replacement of displays. J. theor.
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