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The role of fire in bush encroachment in Ithala Game Reserve.Gordijn, Paul Jan. 27 May 2014 (has links)
The increase of woody vegetation (also known as bush or shrub encroachment) in savannas
has become of global concern to conservationists and rangeland managers alike. Bush
encroachment has been associated with a decrease in rageland palatability. In addition, the increase
in woody biomass has consequences for climate change, carbon sequestration, rangeland hydrology
and nutrient cycling. As a result of these large changes in ecosystem functioning with bush
encroachment, biodiversity may be threatened. Fire is considered to be one of the most important
management tools used to control woody biomass in savannas. However, despite the use of fire in
Ithala Game Reserve, areas have become encroached. This thesis assesses the role of fire in bush
encroachment in Ithala Game Reserve.
I start this thesis with a discussion of the bottom-up (water, nutrients, and light) and topdown
(fire and herbivory) ecosystem components in the literature review. This sets the foundation
for an understanding of the factors that affect savanna tree:grass ratios for the rest of this thesis. In
addition the review discusses the potential effects of climate change on savanna tree:grass ratios.
Recently, it has been proposed that increasing atmospheric carbon dioxide concentrations result in
an increased competitive ability for C3 woody plants against C4 grasses. Many models have been
produced to explain savanna dynamics. By assessing the role of fire in Ithala Game Reserve, its
functioning is assessed in light of the current issues of bush encroachment.
Textural analysis is a remote sensing technique that has been used to detect changes in
woody vegetation using aerial photographs. Textural analysis was used to assess changes in woody
vegetation cover and density from 1943 (earliest period for which aerial photographs were available
for the study area) to 1969, 1990 and 2007 in Ithala Game Reserve (IGR). Field surveys were
performed to assess the effects of the fire regime in IGR on woody vegetation structure and
composition. Transects were performed in areas with different fire frequencies. The effects of fire
frequency were compared between similar vegetation communities.
Textural analysis showed that woody vegetation cover (+32.5%) and density
(657.9 indiv. ha-1) increased from 1943 to 2007. Importantly, in some areas of IGR, the suppression
of fire led to the rapid invasion of woody plants from 1990 to 2007. Field studies demonstrated the
importance of fire in controlling woody vegetation in IGR. The densities of the encroachers,
Dichrostachys cinerea and Acacia karroo were resistant to annual burns. However, the height of
these deciduous microphyllous woody encroachers was reduced by more frequent fires. Following
the suppression of fire, these trees grew taller and their negative impact on the herbaceous layer
increased. Consequently, fuel loads (grassy biomass) declined and prevented the use of frequent
and intense fires by management. The reduction in fire frequency allowed the invasion of woody
evergreen macrophyllous species. Continued development of fire-resistant patches of evergreen
macrophyllous vegetation will further reduce the effectiveness of fire in controlling bush
encroachment.
To control bush encroachment in IGR and the consequential loss of biodiversity, an
intermediate fire frequency (one burn every 2 to 4 years) is required. Burns also need to be hot
enough to increase the current rate of topkill. Management should act to optimize the accumulation
of grassy biomass to fuel fires. / Thesis (M.Sc.)-Unversity of KwaZulu-Natal, Pietermaritzburg, 2010.
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The effects of soil type and management strategy on vegetation structure and function in a semi-arid savanna, South AfricaBritz, Mari-Louise January 2004 (has links)
Thesis (MSc)--Stellenbosch University, 2004. / ENGLISH ABSTRACT: Bush encroachment in savannas leads to reduced diversity, productivity and profitability of
rangelands. This holds important implications for the livestock and eco-tourism industries, as
well as for subsistence ranchers in the South African semi-arid savannas, who depend on this
vegetation type for economic and livelihood purposes. Soil moisture, nutrients, rue and
herbivory are generally regarded as the principal factors determining vegetation structure and
function within savannas. The factors and processes involved in the determination of the
tree:grass ratio within savannas are, however, not clearly understood. We investigated the
role of soil type and management strategy (cattle, game and communal grazing) in the
determination of the presence and distribution of plant species in general, and on the presence
and distribution of the encroaching tree species, Acacia mellifera, specifically. Both shortand
long-term trends were investigated. The study area, the Kimberley Triangle, (Northern
Cape Province, South Africa), was ideal for this kind of study because it has different
management strategies practised on several soil types, and bush encroachment is a widespread
phenomenon.
Contrary to the belief that heavy livestock grazing is the main cause of increases in the
tree:grass ratio, we found that soil type, through its effects on plant growth and on the
presence and availability of soil moisture and nutrients, is more important in determining
vegetation composition than management strategy. It was found that the various types of
grazing management mainly influenced vegetation structure and function by affecting the
competitive interactions between Ns-fixing woody species and non-Ns-fixing grasses. Of the
soil factors affecting vegetation composition, soil texture was a good indicator of the physical
conditions for plant growth in an area, and also of the presence and availability of soil
moisture and nutrients. We found that sand and clay soils are relatively resistant to bush
encroachment as compared to loamy-sand and -clay mixes. This is because woody growth is
impaired in the first-mentioned habitats by soil texture, soil moisture regimes and heavy
utilisation. In soils with combinations of loam, sand and clay, soil texture and moisture are
not limiting to woody growth and if the repressive competitive effect of grasses on woody
vegetation is removed, opportunities are created for recruitment of woody species and
encroachment. Additionally, rockiness increases soil moisture infiltration. In the study area,
woody species, and specifically A. mellifera, are associated with these areas. We suggest that in the study area, rocky areas are naturally encroached. This is in agreement with the patchdynamic
approach to savanna vegetation dynamics. Because soil moisture is such an
important factor in the determination of the tree:grass ratio in the study area, we further
suggest that in above-average rainfall years, when soil moisture conditions are optimal for
woody seed germination, establishment and growth, heavy grazing should be avoided, as it
would provide the opportunity for encroachment.
Keywords: Bush encroachment; N2-fixing species; game, cattle, communal grazing; soil
texture; soil moisture; soil nutrients; Acacia mellifera; tree-grass competition. / AFRIKAANSE OPSOMMING: Bosindringing in savanna gebiede het verlaagde diversiteit, produktiwiteit en winsgewendheid
van natuurlike weivelde tot gevolg. Behalwe dat dit die Suid-Afrikaanse vee- en ekotoerisme
bedrywe raak, is verskeie bestaansboerderye afhanklik van die plantegroei-tipe vir
oorlewing. Grondvog, grondvoedingstowwe, vuur en beweiding word algemeen aanvaar as
die belangrikste faktore wat die struktuur en funksie van savannas bepaal. Daar is egter nog
nie duidelikheid oor die prosesse wat betrokke is in die bepaling van die boom-gras
verhouding in savannas nie. In dié studie het ons ondersoek ingestel na die invloed van grond
tipe en beweidingstrategieë (beweiding deur beeste, wild, of kommunale beweiding) op die
algemene verspreiding van verskillende plant spesies, en ook op die van die indringer spesie,
Acacia mellifera. Beide kort- en lang-termyn patrone is ondersoek. Die studiegebied, die
Kimberley Driehoek in die Noord-Kaap, Suid-Afrika, was ideaal vir so 'n ondersoek omdat
verskillende beweiding strategieë op verskeie grond-tipes beoefen word maar bosindringing
steeds 'n algemene verskynsel in die gebied is.
Ons bevinding was dat, ten spyte van die feit dat daar oor die algemeen geglo word dat swaar
beweiding die hoof oorsaak van bosindringing is, grond-tipe belangriker is in die bepaling van
die spesie-samestelling van 'n gebied. Dit is as gevolg van die feit dat grond-tipe die groei
van plante beïnvloed deur die teenwoordigheid en beskikbaarheid van grondvog en -nutriënte
te bepaal. Die verskillende beweidingstrategieë beïnvloed meerendeels die kompetatiewe
interaksies tussen N2-bindende hout-agtige spesies teenoor nie-Nj-bindende gras-agtige
spesies. Grond-tekstuur was 'n goeie aanduiding van die algemene toestande vir plantegroei
en ook van die teenwoordigheid en beskikbaarheid van grondvog en -nutriënte. Ons het
bevind dat sand en klei grond, relatief tot leem, sand en klei kombinasies, weerstandbiedend
is teen bosindringing as gevolg van die tekstuur, water-regimes en swaar beweidings vlakke
wat op die grond-tipes voorkom. Omdat grond-tekstuur en grondvog nie beperkend is op die
leem-, sand- en klei-grond kombinasies nie, kan bosindringing maklik hier voorkom as die
onderdrukkende effek wat grasse op houtagtige plantegroei het, deur swaar beweiding
verwyder word. A. mellifera is ook oor die algemeen met klipperige gebiede geassosieer
omdat klipperigheid lei tot verhoogde infiltrasie van grondvog. In die studie-gebied is
klipperige areas dan ook van nature ingedring deur A. mellifera. Dit stem ooreen met die
siening dat savannas bestaan uit "laslappe" van verskillende plantegroei (patch-dynamic approach). Dit was duidelik dat grondvog 'n belangrike bepalende faktor is in die bepaling
van die boom-gras verhouding in die studiegebied. Ons stel dus voor dat in bo-gemiddelde
reënval jare, swaar beweiding vermy moet word, omdat houtagtige saailinge gedurende die
tydperke maklik kan ontkiem en vestig juis omdat grondvog dan nie beperkend is nie.
Sleutelwoorde: Bosindringing; N2-bindende spesies; bees, wild, kommunale beweiding;
grond tekstuur; grond-vog; grond-nutriënte; Acacia mellifera; boom-gras kompetisie.
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