Impact of the African elephant (loxodonta African) on woody vegetation in a savanna ecosystem in Laikipia, Kenya
Abstract
The impact of elephant utilization on woody vegetation was investigated on Mpala Research
Center and Conservancy, in Laikipia savanna ecosystem.
Elephant sightings were recorded using hand-held GPS devices and were used to develop a use
intensity map. Elephant behaviour was recorded. Feeding was recorded using scan sampling
while reaction to observers was recorded using Wittemeyer's reaction index. 80 transects of
100xlOm each were sampled for woody species abundance, damage levels and types (total trees
sampled n= 2945).
Elephant presence across the conservancy was found to vary spatial- temporally, with the major
influencing factor being water availability (p=0.003). Mpala was found to be a iIry season
grazing area, with Elephant populations increasing during the dry season and drastically reducing
at the onset of the rainy season.
Human activity through livestock bomas was found not to affect elephant presence significantly
(p=0.08). Elephant population was found to consist mainly of transient families and a few
resident families which spent more than 50% of their time on the conservancy. Resident elephant
families exhibited calmer reaction indices to observers while transients exhibited more agitated
reaction indices (p=0.03).
Acacia mellifera ((M. Vahl) Benth) exhibited the most feeding hits during the dry season while
Acacia brevispica (Harms) exhibited the highest feeding hits during the wet season.
There was a significant difference in damage levels across use intensities (p< 0.0(1) with
damage levels increasing with increasing use intensity. Acacia brevispica was the most abundant
woody species (32%, n= 940) and also had the highest numbers of individuals with general
damage (83%). Acacia nilotica ((L) Delile) exhibited the highest percentage of mortalities
(53%), which coupled with low reproduction rates in the area, made it the species at highest risk
of overutilization and possible extirpation. The most common type of plant injury was crown
damage for all the woody species apart from Acacia drepanolobium (Sjostedt), which exhibited
high levels of stem breakage. There were low levels of debarking which were attributed to the
low stem circumferences of trees sampled.
Less than 10 %) of trees sampled were dead, indicating an unlikelihood of imminent complete
degradation and conversion to grassland. However, the positive relationship between use
intensity and damage suggests that an increase in elephant population on the conservancy would
lead to an eventual change in vegetation composition, community structure and savanna
ecosystem functioning. Further studies should be conducted to assess coppicing rates of the
various tree species on Mpala.
This, in addition to the recruitment and survivorship data, will help give an idea of the net effect
of elephant herbivory on individual species.
Citation
Master of Science in Range Management (Range Ecology), University of NairobiPublisher
University of Nairobi. Department of Land. Resource Management and Agricultural Technology in the University of Nairobi,
Subject
ElephantAbundance and distribution
Use intensity
Acacia
Crown damage
Ecological retrogression