Post on 09-Jun-2020
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Savanna Ecology © Copyright
Module # 10 – Component # 7
Savanna Ecology
Introduction
To fully understand life on the African plains, a comprehension of Savanna Ecology is possibly the most crucial topic to come to grips with. This component will
attempt to introduce you to the in-depth workings of these intricate systems. It is generally accepted that ecological diversity is the best insurance against
habitat deterioration. The primary aim of conservation must lie with maintaining the greatest possible biodiversity. From a conservation point of view,
the question of how to optimise ecosystem functioning for maximising biodiversity is of paramount importance. However, the complexity of the relationships between biological diversity and ecosystem function, the task of
establishing effective strategies is not easily achieved.
A common misconception is that biodiversity is synonymous with species richness or any other numerical descriptor of organisms, but biodiversity can be divided into three components: composition, structure and function.
In Southern Africa, savannas range from tall moist woodlands to sparse grasslands
with scattered thorn bushes in arid to semi-arid areas.
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Savanna Ecology © Copyright
Savanna Ecosystems Describing African savannas is not a simple task, with various scientists putting
forward several ideas on the subject. In short, the savannas of Africa are characterised by having a continuous, well-developed grass layer and an
open, discontinuous layer of shrubs or trees. Savannas owe their structure primarily to the complex interaction of soil, water, vegetation and nutrient availability with fire and herbivores acting as the agents that mold the specific
characteristics and architecture of each specific system.
We recognize that although large reserves may look like natural systems, they are in fact quite artificial, since it was us that defined the boundaries. Thus, since we have created these systems, it is our responsibility to manage them as best
we can. The major structural components of these systems are largely out of the control of managers of the system, we cannot control rainfall, climate, plant growth
or nutrients, but we can have a significant effect on the ecosystem by manipulating fire and herbivores.
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African Savanna Ecosystems :- Major Components Water
Annual primary production, or how much growth occurs in these ecosystems,
is very variable and closely follows the pattern of rainfall. Although rainfall is demonstrably a dominant control factor for plant growth, it is in fact the seasonal differences in soil-moisture which directly influences this important factor. Soil
water availability controls the duration of plant growth (primary production) and nutrient availability.
Nutrients
Plants require nutrients in different amounts. Those required in relatively large amounts are termed macronutrients, and those required in smaller amounts are
termed micronutrients. For plants to take up nutrients from the soil, the nutrients must be:
Present
In an inorganic form
In the soil solution (i.e. dissolved in soil water)
Macronutrients:
Nitrogen and phosphorous are essential for the growth and functioning of all organisms. Their concentration in plant and animal tissues must fall within a specific range. Their availability is a potential constraint on productivity.
Nitrogen and phosphorous are the most frequently limiting nutrients in terrestrial ecosystems, and savannas are no exception.
Micronutrients:
Calcium, magnesium and sodium are not generally thought to be important limiting nutrients in dry savannas, but the situation could be different in a moist
savanna. This group of elements, are lost mainly from the system by soil water drainage in a process known as leaching.
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Savanna Ecology © Copyright
Herbivores It is widely accepted that the current look of savanna ecosystems is the result
of co-evolutionary adaptation (several factors influencing each other) between vegetation and animals.
Savannas of South and Central Africa evolved under light and probably
intermittent utilization (grazing and browsing) by mixed communities of wild (as opposed to domesticated) herbivores. These savannas are adapted to seasonal relief from grazing and browsing pressure. The reason for the seasonal
relief was that animals would have had to either move off the grasslands in search of water, or the grasslands themselves were highly variable in terms of
their nutrition from season to season. If, however, the ecosystem did not receive any significant relief from grazing,
certain plant species would have become locally extinct and combined with the effects of drought and soil degradation, whole ecosystems would have
deteriorated. Acceptability and availability of forage (food)
For plant material to be acceptable to herbivores to eat, it must be both nutritious
and digestible. Large mammalian grazers face a period of protein shortage during the dry season, and browsers face a period of energy shortage at this time. Vegetation (leaves and trees) consumed by browsers has a high protein
content relative to grass, even in the dry season, but owing to the high proportion of deciduous plants (trees that lose their leaves in winter) in savannas, forage
(leaves) is seasonally scarce. At high stocking rates, grazers could be under both protein and energy stress. This
is because grass nutrition levels drop during the late dry season and essential nutrients are lost out of grass at this time. It has been found that the
plant species with the highest nutrient content show the greatest seasonal variation.
In large reserves the game population should include both a wide diversity of different grazers and browsers and therefore it would be detrimental toward
certain species to manage the system towards maintaining a dominant and uniform vegetation structure. In other words, livestock management criteria cannot be adopted for the management of wildlife. Habitats selected or avoided by
herbivores will be significantly different from habitats utilised in proportion to their availability.
Body size has a major impact on feeding behaviour of browsers, not only in
the maximum height at which they can feed, but also in the type of material they can select. Mouth size is important for feeding since it determines how much vegetation can be eaten (ingestion rate) and therefore efficiency of digestion.
Body size also controls metabolic requirements of animals. Smaller animals require more protein in their diet. The smallest browsers are therefore forced to pick at
only the highest quality plant parts, while large browsers can afford to be less selective.
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Savanna Ecology © Copyright
Fallen leaves and pods are important in the diets of mixed feeders (herbivores that both graze and browse). This could have important implications for the re-introduction of certain species. Browsers in certain specific habitats (E.g. broad-
leaf savanna) have a further problem in that most of the plants contain chemicals that hinder digestion. Food scarcity in winter forces them to eat
unpalatable species.
Grazers with small mouths may be selective, but can utilise habitat that excludes herbivores with larger mouths because they cannot select for the favourable components in the tall grass. In reality, all grazers are as selective
as the size of their mouthparts allows them to be. This is particularly evident in nutrient limited savannas where minimum maintenance of protein and
digestibility are important.
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Plant Defences against Herbivores Trees
Plants on infertile savannas are slow-growing, and cannot afford to lose nutrients
or leaf tissue to herbivores. One defence against herbivory (the eating by herbivores) is to store nutrients underground. There is a class of woody plants which take this trend to the extreme, with only the leaves being exposed at ground
level. The consequence of this defence mechanism, however, is strong competition with grasses for light. However, with water and nutrients stored
underground, they can grow during the dry season. This makes them very susceptible to herbivory, since grass resources are limited at this time, and fresh growth would be very appealing. Hence the second form of plant defence: noxious
chemicals.
Certain trees have developed the ability to manufacture a range of highly unpalatable chemical compounds, specifically tannins and phenols. These substances, known as secondary chemicals are produced and stored in the
leaves of the tree. They give the plant the characteristics of being both highly unpalatable and highly indigestible. The trees don’t necessarily continually
maintain high levels of these chemical compounds within their leaves. One study on the feeding habits of Kudu showed that the tree it fed on Acacia caffra (Common hook-thorn), increased its tannins levels some 94% within a few minutes of
being fed on.
There is also evidence to suggest that one plant can communicate to others around it to begin to increase their secondary chemical production due to
herbivores in the vicinity. This action by the plants result in preventing over-browsing. Not only do these chemicals make the leaves unpalatable, but even when consumed they are indigestible. In one specific study, it was eventually
discovered that kudu were dying from malnutrition – with full stomachs. This was due to the forage that was consumed being completely indigestible.
Grass
The location of the meristem (growth tissue) is an important adaptive defence against
herbivory for grasses. When it is at the tip of the branch, as it is for trees, if it is eaten, then the capacity of that branch to generate new
growth is removed. With it being located at the base of the tuft, near the ground, grasses
can produce new leaves close to the ground and the loss of leaf material does not prevent the growth of new leaves. Hairs on
the leaf surface on both trees and grasses are an important deterrent mainly to insect
herbivores. Hairs represent a structural barrier to insects much like thorns do to mammals. Hairs also reduce water loss.
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Fire Fire has been well established as a major factor that determines the structure
of savanna vegetation. Savanna studies have shown that fire exclusion alone can alter the grass/tree balance in favour of trees. Sustained co-existence of
trees and grasses is thought to depend on the action of fire across a landscape, with some facets favouring grasses and others favouring trees. Many
savanna trees re-sprout as juveniles or revert to re-sprouting from the base if the canopy is burnt. In this stunted state, they compete with grasses and are more heavily browsed.
Grasses are extremely effective at suppressing regeneration of other
growth forms because of their rapid growth rates. Trees can be prevented from emerging from the grass layer by regular burning. If fires are infrequent or of low intensity, trees grow to the point where they overtop grasses, reducing the
risk of future fire.
If the preservation of biodiversity is dependent on the preservation of natural processes, then the use of fire in conservation management is essential. The fire regime refers to the type and intensity of fire and the season and frequency of
burning. The current thinking is that a fixed burning program will inevitably lead to the impoverishment of diversity by repeatedly favouring the same
species at the expense of others. When selecting a burning program for conservation, as is the case of most management options, there may be no optimum for maximising biodiversity.
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Savanna Ecology © Copyright
Management of Savanna Environments A generally accepted principle in conservation management has been that the
smaller the area being used for wildlife, the more intensively it must be managed. In smaller conservation areas, the most important factors to consider
in the formulation of a management programme have been stated to be:
Assessment of range (veld) condition
Monitoring of range condition
The setting of realistic stocking rates (game population numbers) of adapted wildlife species
Grazing and browsing management
Water provision
Burning
Culling and cropping Range condition
Range condition refers to the condition of the vegetation in relation to a defined functional characteristic such as average plant production and
resistance to soil erosion. There are certain features on a site (reserve) that can be assessed or measured to determine the range condition. There are a wide
range of characteristics that influence whether a habitat is suitable or not for different game species.
The development of a technique for assessing range condition in the Kruger Park has proven very popular for monitoring range condition in South Africa. The
technique entails categorising grass species according to their responses to different intensities of grazing.
Species which decrease in number when range is overutilised are termed decreasers.
Species that increase when range is under-utilised are termed increaser I
species.
Increaser II species increase when range is overutilised.
Variable species are a group of grasses that show variable responses to utilisation.
Management is often directed towards ‘improving’ range condition’, and an
expansion in decreaser-grasses is widely recognised as indicative of range in good condition. However, not all herbivores will benefit from range in ‘good’ condition. Rather it is to the benefit of all herbivore species that range in different
stages of utilisation should be present.
If heavily utilised areas do not threaten the existence of any grazing species by becoming too large, or lead to exposed surfaces and accelerated soil erosion, heavily utilised areas should be regarded as an acceptable natural
phenomenon.
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What follows below is an example of a Veld Assessment, based on the grasses present in
the area. This assessment was done at Combretum Park Nature Reserve.
Grass type
No.
Samples Ecological status Palatability Succession stage
Panicum maximum 3 Decreasers High Climax
Trichoneura grandiglumis 1 Increaser 2 Low Sub climax
Eragrostis pallens 1 Increaser 2 Low Climax
Aristida congesta 6 Increaser 2 Low Pioneer - sub climax
Digitaria eriantha 4 Decreasers Med Climax
Eragrostis rigidior 1 Increaser 2 Low Sub climax
Brachiaria brizantha 9 Increaser 1 Low Climax
Aristida stipitata 2 Increaser 2 Low Pioneer
Pogonarthria squarrosa 9 Increaser 2 Low Sub climax
Melinis repens 7 Increaser 2 Low Pioneer - sub climax
Perotis patens 17 Increaser 2 Low Pioneer - sub climax
Urocholoa mosambicensis 1 Increaser 2 High Sub climax
Cynodon dactylon 18 Increaser 2 High Pioneer
Heteropogon contortus 1 Increaser 2 Med
Pioneer - sub climax
Total 80
SUMMARY
Palatability: High 26/80; Medium 2/80, low 52/80
Desirability of species: Desirable Decreasers 3/14; less desirable increaser 2’s 10/14; undesirable increaser 1's 1/14
Veld is in a transition between sub-climax & climax.
High proportion of grasses that indicate a history of disturbance.
Recommended Management Strategy:
Bring in a few selective grazers e.g. Blue Wildebeest or White Rhino for 10 -14 days.
Allow resting for 6-8 weeks and repeating.
Grasses utilised by selective grazers will be stimulated to grow and compete against the unpalatable.
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Carrying capacity Numerous authors have attempted to define carrying capacity, but these
definitions are not consistent. Determining carrying capacity is possibly the information most frequently requested by land managers. Invariably,
carrying capacity attempts to: ‘describe the productivity of the vegetation in terms of the number of
animals that can be maintained in a productive state on an area of land without deterioration of vegetation or soil’.
The stocking rate of different game species on a game ranch will be determined by the types and condition of the different available habitats
and management objectives. When game viewing is a priority, the stocking rate is usually maintained at or close to ecological carrying capacity, which is the
maximum population of animals that an area can support without deterioration of range condition. The stocking rate that is maintained on a hunting reserve will have a very different population structure.
Grazing and browsing management
Continuous grazing and browsing generally leads to the selective overutilisation of the animal’s preferred plant species. This usually results
in a decline in the reproductive capacity of these species, and hence their ability to recover from these grazing and browsing disturbances. This can be prevented
by rotational grazing and browsing. In small conservation areas where natural migrations of wildlife are not possible, management actions need to be taken to
manipulate game movements. Burning
Generally, the most effective way of attracting game to an area is to burn
it. This practice results in the production of highly nutritious forage as a result of nutrients becoming readily available. The burning programme, however, must be carefully planned, with the most important factor being the size of area to
be burnt. Care must be taken to ensure that the burnt area far exceeds the short term nutritional requirements of the game that will be attracted to it. Another
important factor is that the stocking rate of grazers must be such that sufficient grass will accumulate for the implementation of a burning programme. If fire is excluded from a savanna, bush encroachment invariably results.
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Water provision and Mineral licks Rotational resting of certain areas within a reserve can be implemented by:
The strategic placing of mineral and salt licks
The opening or closing of artificial waterpoints.
In confined reserves in arid and semi-arid savannas, the provision of artificial water holes is necessary to sustain animal populations throughout the
relatively long dry season. There are numerous instances, however, where the creation of abundant perennial (year-round) water points to enhance game
viewing in these savannas has resulted in severe range degradation. This occurs because areas that could previously only be exploited by high-density, water-dependant herbivores during the wet season, become accessible to these
animals during the dry season as well. This inflates short-term population numbers beyond an acceptable ecological level and leads to severe
overgrazing. Culling
The artificial confinement of herbivores characteristic of most Southern African
reserves has resulted in unnaturally dense game populations. This contributes to overutilisation of reserve resources which results in the main justification for culling. The basis for deciding whether to cull or not remains highly
contentious.
The critical question remains whether reductions in animal numbers is essential to avoid progressive deterioration in habitat condition. Alternatively, are episodes of apparent overgrazing an intrinsic and readily
reversible feature of vegetation / herbivore interactions? It is widely felt that overgrazing is an intrinsic feature of grazing systems, but a key phrase is
‘episodes of overgrazing’. Heavily utilised areas must experience periods of little or no utilisation so that favoured plant species can maximise their reproductive capacity. This scenario of habitat being largely or completely
underutilised can no longer occur due to the artificial boundaries currently erected around all Southern African reserves. Game inside reserves or parks
cannot migrate when veld condition deteriorates. It is therefore the responsibility of reserve managers to manage both habitat and game populations.
Water provision as a management tool
Game reserves are (in theory) maintained at ecological as opposed to economic carrying capacity and thus will have a reduced cover of vegetation. The objectives of a game reserve should therefore place emphasis on long term
stability and conservation. Overgrazing because of incorrect stocking rates, has been identified as a major cause of accelerated erosion in South Africa. In
addition, water availability is a crucial parameter in calculating carrying capacity of a range.
Human expansion and fences have, in many cases, prevented seasonal movements of herbivores and it has therefore become necessary to supplement water
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Savanna Ecology © Copyright
supply to sustain migratory herds throughout the relatively long dry season. Supplementing drinking water for herbivores in conserved areas has, however, long been a contentious issue, but continues to be common practice
in veld management in wildlife areas. It has been argued that perennial (year-round) water provision discourages even localised animal migration, with the
resulting large congregations of animals around dry season watering points causing overgrazing, trampling and bush encroachment.
Excessive waterpoints in conservation areas may have the following adverse effects:
favouring water-dependant ungulates and elephants at the expense of rarer species
promoting increased predator impacts on prey populations
inducing more widespread vegetation impacts
worsening animal mortality during droughts
decreasing ecosystem stability
leading to a loss of biodiversity
Additional perennial water provision can inflate a short-term stocking rate beyond an ecologically stable carrying capacity. Ultimately, this leads to an
unacceptable rate of soil loss, reduced ecological resilience and reduced habitat diversity. This is since new areas previously inaccessible due to the absence or shortage of drinking water are opened. It has been found that wildebeest and other
water dependant species have extended their range because of the provision of perennial water points.
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Savanna Ecology © Copyright
Conclusion
The management of game parks and reserves is a growing discipline. The ideas
we accept as fact and readily implement are being challenged on an almost daily basis. Habitat management of savanna ecosystems is a relatively new ecological
sub-discipline, with only a 100-year history. We do not know the outcome of the real long term (500 – 1000 year) effects of our efforts today.
South Africa today has ± 15 000 formal conservation areas covering just under 20 million hectares of land, twice as much as there was 50 years ago. With this
incredible resurgence of game parks and reserves has come a renewed interest in wildlife and related studies. This obviously results in more in-depth and more focussed research, eventually contributing to better management
ideas and techniques for our wildlife ecosystems.
This component and the related component of Habitat management (Module # 11), only form the basic foundation of understanding to this developing science. We offer a full Wildlife Management Course.