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Functional ecology of hardwood trees under chronic droughtIves, Nadine E. (Nadine Elizabeth) January 1994 (has links)
I compared the interrelationships among traits affecting interspecific variation in the growth of seedlings of 22 hardwood tree species subjected to chronic intermittent drought. Leaf traits were the most responsive to contrasting water regimes; canopy architecture, hydraulic conductivity and leaf phenology were less affected. Relative growth rate (RGR) under drought, however, was most closely related to variation in canopy duration: species in leaf longer had greater RGR. Secondarily, maintaining higher stomatal conductance (g) under drought further enhanced RGR. Higher g is associated with a higher photosynthetic rate (A), but the relationship between A and g varied with internal CO$ sb2$ concentration (c$ sb{ rm i}$), foliar nitrogen and specific leaf mass. Species with weaker homeostatic control over c$ rm sb{i}$ had higher water use efficiency. While photosynthetic characteristics were related primarily to species' shade tolerance, water use efficiency was most closely related to habitat moisture preference.
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Functional ecology of hardwood trees under chronic droughtIves, Nadine E. (Nadine Elizabeth) January 1994 (has links)
No description available.
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Water and nutrient relations of selected tree species of EthiopiaGindaba, Jiregna 12 1900 (has links)
Dissertation (PhD (Bosb))--University of Stellenbosch, 2003. / ENGLISH ABSTRACT: This study was conducted to evaluate and compare the water and nutrient relations of three
indigenous deciduous tree species, viz., Cordia africana Lam., Croton macrostachyus Del.,
Millettia ferruginea (Hochst.) Baker and two widely planted eucalypts, viz., Eucalyptus
camaldulensis Dehnh and Eucalyptus globulus Labill from Ethiopia. The study was organized as
glasshouse and field observations in Ethiopia. Owing to the lack of baseline studies on the water
and nutrient relations of the deciduous tree species, the glasshouse experiments involved a wide
range of water and nutrient applications. Seedlings were grown with the supply of various levels of
water and nutrients during which gas exchange, water potential, relative water content, tissue
nutrient content and biomass production were measured. The field observations were limited to the
study of surface root distribution and leaf nutrient composition of mature trees and their effects on
soil nutrient pool. The observations were made on isolated trees and mixed or pure stands of trees
in Badessa area, Eastern Ethiopia. The field site was selected because of the availability of the
study species and suitability of the trees for the study.
In the glasshouse, increased water deficit significantly reduced predawn leaf water
potential, relative water content, stomatal conductance, photosynthetic rate, whole plant water use
efficiency, plant height, diameter, leaf area and biomass production. Both of the eucalypts did not
grow faster than the deciduous species under well-watered conditions unlike under water stress
conditions. C. macrostachyus and C. africana had higher transpiration rates and tissue nutrient
accumulations than the other species. They also demonstrated higher biomass allocation to roots
than all the other species to support the intensive water and nutrient uptake rate. Due to the ability
to re-orient its leaves to avoid direct solar irradiance, M. ferruginea maintained higher tissue water
potential and relative water content than all the other species under water stress regimes.
The impact of imposed drought was quick and more damaging to the eucalypts compared
to the deciduous tree species indicating that the eucalypts may not survive extreme drought
conditions unlike the deciduous species that drop their leaves and may remain dormant for weeks.
The current study gave new experimental proof that E. globulus was more vulnerable to drought
than E. camaldulensis.
Soil N stress resulted in an overall reduction of tissue N concentration, N:P ratio,
photosynthetic rate, stomatal conductance and photosynthetic water use efficiency in all the species
studied. Pants with high foliar nitrogen concentration had higher photosynthetic capacities
indicating that N plays a key role in photosynthesis and growth of all the studied species. The
current study showed that for all the tree species, more attention has to be given to soil N than to P
as soil P had minor effects on the photosynthetic activities of plants of all species compared to N.The investigation on tissue nutrient composition confirmed that N:P ratio could be used to detect Plimitation
in plants. However, N:P ratio could not distinguish between N-limitation and combined
limitations of N and P.
The study of isolated C. africana and C. macrostachyus trees on soils in Badessa, Eastern
Ethiopia indicated improved soil N, P and K under tree canopies whereas no effects were observed
on the other soil nutrients studied. Similar to glasshouse conditions, C. macrostachyus and C.
africana produced extensive surface roots, interfering with crops grown in association. Due to their
high nutrient cycling potential the net effect on soil was positive. Comparison of E. camaldulensis
woodlot and a mixed stand composed of deciduous species indicated that the fine root biomass in
the surface soil under E. camaldulensis was about three times that under the mixed stand. The fine
root biomass of E. camaldulensis inside the stand and 10 meters away from the stand were
comparable in the surface soils showing the presence of root competition with adjacent crops.
Therefore, planting of E. camaldulensis in association or adjacent to croplands should be avoided.
Nutrient and carbon pool of soil inside the mixed stand was generally higher than that of E.
camaldulensis indicating that trees of the mixed stand recycled more nutrients to the soil. / AFRIKAANSE OPSOMMING: Die doel van hierdie studie was om die verskille tussen water- en voedingstofverhoudings van drie
inheemse blaarwisselemde boomsoorte te vergelyk, viz., Cordia africana Lam., Croton
macrostachyus Del., Millettia ferruginea (Hochst.) Baker en twee bekende eucalyptus spesies, viz.,
Eucalyptus camaldulensis Dehnh en Eucalyptus globulus Labil van Etiopië. Die studie het bestaan
uit kweekhuis- en veldobservasies in Etiopië. As gevolg van beperkte navorsing ten opsigte van
water- en voedingstofverhoudings in bladwisselende boomsoorte, het die kweekhuis-eksperimente
bestaan uit 'n wye verkeidenheid water- en voedingstoftoetse. Saailinge is gegroei deur
verskillende vlakke van water- en voedingstowwe by te voeg. Gaswisseling, waterpotensiaal,
relatiewe hoeveelheid water, hoeveelheid voedingstowwe en produksie van biomassa is gemeet.
Die veldobservasies was beperk tot oppervlak-wortelverspreiding en blaarvoedingstof hoeveelhede
van volwasse bome, sowel as die effek op grondvoedingstowwe. Observasies was beperk tot
geïsoleerde, gemengde en een spesie opstande, in die Badessa area, Oos Etiopië. Die studiearea was
gekies op grond van die voorkoms van die gekose boomsoorte, sowel as die toepaslikheid van die
bome vir die studie.
In die kweekhuis is gevind dat die verhoogte watertekort die pre-sonop
blaarwaterpotensiaal, relatiewe hoeveelheid water, stomatiese geleiding, fotosintetiese tempo,
heelplant water-gebruikseffektiwiteit, plant hoogte, diameter, blaararea en biomassa produksie
beduidend verminder het. Nie een van die eucalyptus spesies het vinniger as die bladwisselende
spesies onder voldoende hidrasie gegroei nie. Dit was egter nie die geval onder die waterbeperkte
toestande nie. C. macrostachyus en C. africana het ‘n hoër transpirasie tempo sowel as
weefselvoedingstof waardes gehad as die ander spesies. Hierdie boomsoorte se wortelbiomassa
was ook meer as die ander spesies, om vir die tempo van water- en voedingstofopname te
akkomodeer. As gevolg van die vermoë om blare te kan oriënteer om direkte sonlig te vookom,
het M. ferruginea ‘n hoër water-weefselpotensiaal en relatiewe waterinname gehad in vergelyking
met die ander boomsoorte in beperkte water toestande.
Die impak van gëinisieerde droogte het vinnig voorgekom en het meer skade aan die
eucalyptus aangerig in vergelyking met die bladwisselende boomsoorte. Dit dui aan dat die
eucalyptus-spesie nie ekstreme droogte kan oorleef nie, waar bladwisselende spesies hul blare laat
afval en vir weke aan een dormant kan bly. Hierdie studie gee eksperimentele bewyse dat E.
globulus minder bestand is teen droogte as E. camaldulensis.
Beperkte N in die grond het veroorsaak dat daar ‘n algemene vermindering van weefsel Nkonsentrasie,
N:P ratio, fotosintetiese tempo, stomatiese geleiding en fotosintetiese watergebruiks
effektiwiteit in al die bestudeerde spesies was. Plante wat oor hoër blaar-stikstofkonsentrasiesbeskik, het hoër fotosintetiese kapasiteite wat aandui dat N ‘n belangrike rol in fotosintese en die
groei van al die bestudeerde spesies speel. Die oorhoofse bevindings van die studie was, dat daar
meer aandag gegee moet word aan grond-N as P omdat grond-P net ‘n kleiner rol speel in die
fotosintetiese aktiwiteite van plante van al die spesies in vergelyking met N. Die ondersoek na
weefselvoedingstof hoeveelhede het bewys dat die N:P ratio gebruik kan word om P-tekorte in
plante aan te dui. Die N:P ratio kan egter nie die verskil in N-tekorte en gekombineerde tekorte van
N en P aandui nie.
Die studie van die geïsoleerde C. africana en C. macrostachyus bome op grondtipes in
Badessa, Oos Etiopië het verbeterde grond-N, P en K onder kroondak gebiede getoon, daar was
egter geen verskille in die ander grondvoedingstowwe wat bestudeer is nie. In toestande
gelykstaande aan die van die kweekhuis, het C. macrostachyus en C. africana meer
oppervlaksswortels ontwikkel. Die toename aan oppervlakswortels het ingedring op gewasse wat in
assosiasie gegroei is, dit het egter ‘n positiewe effek op die grond gehad as gevolg van die hoë
voedingstof-siklus-potensiaal. Die E. camaldulensis opstand is gevergelyk met ‘n gemengde
opstand van bladwisselende spesies waar daar gevind is dat die fynwortel biomassa in die
oppervlak grond onder die E. camaldulensis ongeveer drie keer soveel was as die van onder die
gemengde opstand. Kompetisie met aangrensende gewasse is aangeui deurdat die fynwortel
biomassa van E. camaldulensis binne die opstand en 10 meter weg van die opstand vergelykbaar
was in die oppervlakgronde. Dit dui dus aan dat die plant van E. camaldulensis in assosiasie of
aangrensend aan gewasse vermy moet word. Die teenwoordigheid van voedingstowwe en koolstof
in die grond van die gemengde opstand was oor die algemeen hoër as die van die E. camaldulensis.
Dit is ‘n aanduiding dat die bome van die gemengde opstand meer voedingstowwe aan die grond
verskaf.
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Approaches to modelling catchment-scale forest hydrology.Roelofsen, Aukje. January 2002 (has links)
South African commercial plantations occupy an estimated 1.5 million hectares of the country and as the demands for timber products increase, this area is expected to increase. However, further expansion is limited, not only by the suitability of land, but also by the pressures from other water users. As a result the need has arisen for simulation models that can aid decisionmakers and planners in their evaluation of the water requirements of forestry versus competing land uses at different spatial scales. Different models exist to perform such tasks and range from simple empirical models to more complex physically-based models. The policies of the National Water Act (1998) relating to forestry serve to highlight the requirements of a model used for the assessment of afforestation impacts and these are discussed in this document. There is a perception that physically-based distributed models are best suited for estimation of afforestation impacts on a catchment's water yield since their physical basis allows for extrapolation to different catchments without calibration. Furthermore, it is often stated that the model parameters have physical meaning and can therefore be estimated from measurable variables. In this regard, a review of physically-based modelling approaches and a comparison of two such hydrological models forms the main focus of this dissertation. The models evaluated were the South African ACRU model and the Australian topography-based Macaque model. The primary objective of this research was to determine whether topography-based modelling (Macaque model) provides an improved simulation of water yield from forested catchments, particularly during the low flow period, compared to a physically-based model (ACRU model) that does not explicitly represent lateral sub-surface flow. A secondary objective was the evaluation of the suitability of these models for application in South Africa. Through a comparison of the two models' structures, the application of the models on two South African catchments and an analysis of the simulation results obtained, an assessment of the different physically-based modelling approaches was made. The strengths and shortcomings of the two models were determined and the following conclusions were drawn regarding the suitability of these modelling approaches for applications on forested catchments in South Africa:• The ACRU model structure was more suited to predictive modelling on operational catchments, whilst the more complex Macaque model's greatest limitation for application in South Africa was its high input requirements which could not be supported by the available data. • Despite data limitations and uncertainty, the Macaque model's topography-based representation of runoff processes resulted in improved low flow simulations compared to the results from the ACRU simulations, indicating that there are benefits associated with a topographically-based modelling approach. • The Macaque model's link to the Geographic Information System, Tarsier, provided an efficient means to configure the model, input spatial data and view output data. However, it was found that the ACRU model was more flexible in terms of being able to accurately represent the spatial and temporal variations of input parameters. Based on these findings, recommendations for future research include the. verification of internal processes of both the ACRU and Macaque models. This would require the combined measurement of both catchment streamflow and processes such as evapotranspiration. For the Macaque model to be verified more comprehensively and for its application in operational catchments it will be necessary to improve the representation of spatial and temporal changes in precipitation and vegetation parameters for South African conditions. / Thesis (M.Sc.)-University of Natal ,Pietermaritzburg, 2002.
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The long-term measurement of total evaporation over Acacia mearnsii using large aperture scintillometryClulow, Alistair D. January 2007 (has links)
A large aperture scintillometer (LAS) was operated continuously over a distance of 575 m from 19 August 2006 to 29 September 2007 in the South African KwaZulu-Natal midlands mistbelt area over Wattle (Acacia mearnsii). The LAS measurements of the structure parameter of the refractive index of air ( 2 n C ), were used to calculate the sensible heat flux. The shortened energy balance equation was used to estimate the latent energy flux as a residual from which the total evaporation (ET) was calculated. The LAS estimates of sensible heat flux during the short transition period (1 hour) between stable and unstable conditions were on occasion erroneous and required verification. Advection was also found to affect sensible heat flux estimates. Long-term operation of the LAS was however found to be possible even at remote sites, producing reliable and continuous results. The LAS estimates of sensible heat are sensitive to zero-plane displacement height and wind speed data impact and these should be derived as accurately as possible. Tree heights were measured at monthly intervals and a zero-plane displacement and effective height were calculated every two weeks. The sensible heat flux was thus processed in two week blocks of data corresponding to progressive effective heights. The tree growth rate was consistent over time and was not affected by seasonality, indicating that reduced air temperatures, rainfall and solar irradiance in winter are not limiting growth. The average growth rate was 0.37 m per month or 4.5 m per year. The LAS ET was compared to the American Society of Civil Engineers - Environmental and Water Resources Institute (ASCE-EWRI) short grass reference evaporation (ETsz) for a seven-month period and was found to compare favourably (R2 = 0.78) with outliers caused by advection and rainfall events. Calculations of grass reference evaporation at hourly and daily intervals provide different results. The daily estimates are lower than the hourly estimates by 17 % on average. Where hourly data is summed to calculate a daily ETsz, night-time values should be included. The LAS ET measurements were validated against the Priestley and Taylor (1972) method of estimating ET and found to be in good agreement (R2=0.94). The Priestley and Taylor daily total latent energy flux, from 22 August 2006 to 29 September 2007, was 9 % higher than the LAS results on average. The Bowen ratio for the entire period is less than 1, indicating that the latent energy flux dominates at the site. The ET over the period of measurement (13 months) is 1250 mm and the rainfall is 750 mm. This confirms previous results at the site using the Bowen ratio energy balance method showing that the ET exceeds the rainfall by 45 % and justifies further research into soil water, ground water and root interactions in the deep soil profile. / Thesis (M.Sc.)-University of KwaZulu-Natal, Pietermaritzburg, 2007.
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