Above- and belowground competition in Savanna systems.

Payne, Michelle Jennifer.

January 2008

The structure and composition of savanna vegetation is influenced by resource availability and disturbance. Grasses, a major component of savannas, influence this resource availability by competing directly with trees for light, water and soil nutrient resources. The direct causes of bush encroachment are not always apparent, but are commonly ascribed to overgrazing and consequent decreased grass competition. The interaction, both above and belowground, between tree and grass seedlings and the surrounding grass sward is dependant on many factors, such as soil depth, seedling species and sward composition. These factors, as well as the presence or absence of defoliation, in the form of grazing or fire dictate whether the system will remain in a transition state as savanna or move towards a stable woodland state. The major competitive effects experienced by the tree seedlings were dependant on grass species and nutrient level. A. nilotica was affected by aboveground competition while A. karroo was affected by belowground competition. E. capensis caused the greatest decrease in A. karroo plant biomass. Both E. capensis and H. hirta had large competitive effects on the aboveground biomass of A. nilotica, while S. africanus had the greatest effect on belowground biomass. Increasing nutrient availability resulted in an increase in the competitive effect exerted on A. karroo, while little to no change was seen in the competitive effect exerted on A. nilotica. Soil depth constrained plant size in both tree species. The intensity of belowground interactions on tree biomass was unaffected by soil depth, while aboveground competition had a significant effect on shallow soils. Belowground competition was also of greater importance than aboveground competition in dictating tree seedling height. Grass seedlings growing on all three soil depths differed in mean mass, with E. racemosa having the least mass and T. triandra having the greatest. Simulated grazing by cutting the surrounding sward resulted in biomass increases in all three grass species. Changes in savanna composition and structure are thus likely to be influenced by initial species composition and soil depth and soil nutrient composition. While grazing creates niches for grass seedling establishment, heavy grazing has been observed to increase grass seedling mortality. Encroachment is thus more likely to occur on intensively grazed shallow and deep soils than on medium depth soils. This highlights the importance of ensuring the grass sward remains vigorous by resting and monitoring stocking rates to ensure veld is not over-utilized. It is then possible to maintain some form of tree-grass coexistence at a level where available grazing is not compromised. / Thesis (M.Sc.)-University of KwaZulu-Natal, Pietermaritzburg, 2008.

Competition (Biology)--KwaZulu-Natal.

Grasses--KwaZulu-Natal.

Acacia--Seedlings.

Soil depth--KwaZulu-Natal.

Savanna ecology--KwaZulu-Natal.

Range management--KwaZulu-Natal.

Theses--Grassland science.

The influence of agri-environmental measures based grassland management on grassland plant communities / Agrarinės aplinkosaugos priemonėmis paremtų tvarkymo metodų įtaka pievų augalų bendrijoms

Ložytė, Aurelija

26 May 2014

Grassland is an important component of agrarian landscape, performing wide range of ecological, economic and social functions. Long-term changes of the conditions of habitats, determined by human economic activities, influence the state of grassland plants. Rural Development Programme for Lithuania 2007–2013 sets measure to preserve biological diversity of grassland. The purpose of it is to reduce negative anthropogenic effect on grassland plant communities using the EU funds. Having researched the differences of grassland plant diversity and economic value, influenced by different intensity economic activities, the main objective of this paper is to evaluate the efficiency of EU regulated, agri-environmental measures based, grassland management methods in small farming sector of Lithuania. The research, involving the assessment of the number of plant species, diversity of plant families, distribution of relative plant abundance, and dominance of plant species in plant communities in grassland managed traditionally and according to the requirements of agri-environmental farming, showed that both types of grassland had similar plant communities. Such conclusion was drawn from the analysis of Jaccard and Sörensen similarity coefficients. The difference of plant adaptation to soil dampness, acidity, and nutrition was not statistically significant in grasslands of both types. Most of the plants in grassland researched were mesophytes; soil acidity was not a determining factor to... [to full text] / Pievos yra svarbus agrarinio kraštovaizdžio komponentas, atliekantis įvairias ekologines, ekonomines ir socialines funkcijas. Ilgalaikiai augaviečių sąlygų pokyčiai, kuriuos lemia žmogaus ūkinė veikla, įtakoja pievų augalų būklę. Lietuvos kaimo plėtros 2007–2013 m. programoje numatyta priemonė pievų biologinės įvairovės išsaugojimui, kurios tikslas panaudojant ES lėšas mažinti neigiamą antropogeninį poveikį pievų augalų bendrijoms. Ištyrus pievų augalijos įvairovės ir ūkinės vertės skirtumus, sąlygotus skirtingos ūkinės veiklos intensyvumo, šio darbo tikslas įvertinti reglamentuotų, ES agrarinės aplinkosaugos priemonėmis paremtų, pievų tvarkymo metodų efektyvumą smulkiuose Lietuvos ūkiuose. Atliktas tyrimas parodė, kad įvertinus augalų rūšių skaičių, augalų šeimų įvairovę, augalų rūšių santykinio gausumo pasiskirstymą, dominuojančias augalų rūšis tradiciniais ir agrarinės aplinkosaugos reikalavimus atitinkančiais ūkininkavimo metodais tvarkomose pievose, nustatyta, kad jose augo panašios augalų bendrijos. Tai parodė ir Žakaro bei Sörensen bendrumo koeficientų reikšmės. Abiejų tipų pievose rastų augalų rūšių prisitaikymo prie dirvožemio drėgmės, rūgštingumo, turtingumo maisto medžiagomis rodiklių reikšmės statistiškai reikšmingai nesiskyrė. Pievų augalų bendrijose vyravo mezofitai, daugumai augalų rūšių dirvožemio rūgštingumas buvo neįtakojantis veiksnys, pievoms būdingi mezooligotrofiniai ir mezotrofiniai žolynai. Tyrimas parodė, kad biologinės įvairovės apsaugai palankus... [toliau žr. visą tekstą]

Ecology and Environmental Studies

Agri-environmental measures

Grassland plant communities

Economic value

Composition of plant species

Agrarinės aplinkosaugos priemonės

Pievų augalų bendrijos

Ūkinė vertė

Augalų rūšinė sudėtis

Agrarinės aplinkosaugos priemonėmis paremtų tvarkymo metodų įtaka pievų augalų bendrijoms / The influence of agri-environmental measures based grassland management on grassland plant communities

Ložytė, Aurelija

26 May 2014

Pievos yra svarbus agrarinio kraštovaizdžio komponentas, atliekantis įvairias ekologines, ekonomines ir socialines funkcijas. Ilgalaikiai augaviečių sąlygų pokyčiai, kuriuos lemia žmogaus ūkinė veikla, įtakoja pievų augalų būklę. Lietuvos kaimo plėtros 2007–2013 m. programoje numatyta priemonė pievų biologinės įvairovės išsaugojimui, kurios tikslas panaudojant ES lėšas mažinti neigiamą antropogeninį poveikį pievų augalų bendrijoms. Ištyrus pievų augalijos įvairovės ir ūkinės vertės skirtumus, sąlygotus skirtingos ūkinės veiklos intensyvumo, šio darbo tikslas įvertinti reglamentuotų, ES agrarinės aplinkosaugos priemonėmis paremtų, pievų tvarkymo metodų efektyvumą smulkiuose Lietuvos ūkiuose. Atliktas tyrimas parodė, kad įvertinus augalų rūšių skaičių, augalų šeimų įvairovę, augalų rūšių santykinio gausumo pasiskirstymą, dominuojančias augalų rūšis tradiciniais ir agrarinės aplinkosaugos reikalavimus atitinkančiais ūkininkavimo metodais tvarkomose pievose, nustatyta, kad jose augo panašios augalų bendrijos. Tai parodė ir Žakaro bei Sörensen bendrumo koeficientų reikšmės. Abiejų tipų pievose rastų augalų rūšių prisitaikymo prie dirvožemio drėgmės, rūgštingumo, turtingumo maisto medžiagomis rodiklių reikšmės statistiškai reikšmingai nesiskyrė. Pievų augalų bendrijose vyravo mezofitai, daugumai augalų rūšių dirvožemio rūgštingumas buvo neįtakojantis veiksnys, pievoms būdingi mezooligotrofiniai ir mezotrofiniai žolynai. Tyrimas parodė, kad biologinės įvairovės apsaugai palankus... [toliau žr. visą tekstą] / Grassland is an important component of agrarian landscape, performing wide range of ecological, economic and social functions. Long-term changes of the conditions of habitats, determined by human economic activities, influence the state of grassland plants. Rural Development Programme for Lithuania 2007–2013 sets measure to preserve biological diversity of grassland. The purpose of it is to reduce negative anthropogenic effect on grassland plant communities using the EU funds. Having researched the differences of grassland plant diversity and economic value, influenced by different intensity economic activities, the main objective of this paper is to evaluate the efficiency of EU regulated, agri-environmental measures based, grassland management methods in small farming sector of Lithuania. The research, involving the assessment of the number of plant species, diversity of plant families, distribution of relative plant abundance, and dominance of plant species in plant communities in grassland managed traditionally and according to the requirements of agri-environmental farming, showed that both types of grassland had similar plant communities. Such conclusion was drawn from the analysis of Jaccard and Sörensen similarity coefficients. The difference of plant adaptation to soil dampness, acidity, and nutrition was not statistically significant in grasslands of both types. Most of the plants in grassland researched were mesophytes; soil acidity was not a determining factor to... [to full text]

Ecology and Environmental Studies

Agrarinės aplinkosaugos priemonės

Pievų augalų bendrijos

Ūkinė vertė

Augalų rūšinė sudėtis

Agri-environmental measures

Grassland plant communities

Economic value

Composition of plant species

The role of fire and fire-related factors on germination and growth of grassland species.

Ghebrehiwot, Habteab Mesghina.

January 2010

Fire, natural or of anthropologic origin is a recurrent phenomenon in South African mesic grasslands. The species composition of these grasslands is sensitive to fire frequency and there exists a permanent fire-species relationship syndrome. The shift follows a general trend where, in the absence of fire for longer periods, the native grass species, possibly the most economically important grass species, give space to relatively less desirable and invasive species accompanied by significant decline in basal cover. Though much is known as to how the floristic composition of the grassland changes in response to fire, the underlying mechanisms responsible for changes in plant vigour and species composition are not fully understood. There exists limited information on germination requirements of the local flora and how recruitment of the species is influenced by fire, fire-related factors and the interaction of these factors among themselves is virtually unknown. Since the discovery by DE LANGE and BOUCHER (1990), plant-derived smoke is being widely studied as an important germination cue and the theme has been the subject of intense experimental research and theoretical work. Germination studies conducted on South African Fynbos, Californian Chaparral, and Australian species have illustrated the widespread ability of plant-derived smoke in promoting germination of species from both fire and non-fire prone habitats. Studies have also showed that plant-derived smoke plays a significant role in vegetative growth of many plants including horticultural and agricultural crops, though mechanisms of smoke action in enhancing germination and promoting plant growth are still under active research. This study sought to gain insight into the role of fire and fire-related cues and other related factors on germination and seedling growth of key grass species from fire-prone grassland in South Africa. In this study, various investigations were conducted on different aspects related to smoke-induced seed germination. Furthermore, in depth examinations were conducted on the effects of fire-related factors such as smoke, heat, soil and nutrients on seed germination and seedling growth of representative key mesic grassland species from South Africa. Laboratory-based germination and vigour experiments were conducted using smoke solutions. The aim was to examine if the strong fire-species relationship syndrome we encounter in post-fire mesic grassland in South Africa is related to the effect of plant-derived smoke on germination and seedling growth. In addition, the interaction of plant-derived smoke solutions with temperature was examined by incubating seeds at a range of temperatures. Treating seeds with smoke-water and butenolide, the germination rate (GR) and final germination percentage (FGP) were greater in 3 of the 6 species. Themeda triandra Forssk. and Tristachya leucothrix Trin. ex Nees showed the greatest response, with final germination increased from 43% to 67% and 35% to 63% respectively. These smoke solutions have also significantly enhanced germination in Eragrostis tef (Zucc.) Trotter from 62% to 80%. The degree of responsiveness varied from species to species and across different temperatures. Findings from this study suggested that plant-derived smoke and its interaction with temperature significantly influence the germination and seedling growth of the South African mesic grassland species, which can further impact on the grassland composition. To characterise the role of plant-derived smoke on certain economically important seed traits, the effect of smoke-water and a smoke-isolated butenolide on seed germination and seedling growth of Eragrostis tef (grass species which has moderately good tolerance to east African drought) was investigated at a range of temperatures, light conditions and osmotic potentials. Smoke-water (1:500 v/v) and butenolide (10ˉ⁸ M) treatment of the seeds increased percentage germination, seedling vigour and imbibition from high to low osmotic potential. These results suggested that smoke solutions have characteristics with overriding effects toppling stresses exerted from high temperature and low osmotic potential, thereby widening the temperature and moisture zone over which germination can occur. Furthermore, these findings suggested that the mode of smoke action in promoting seed germination is likely to be linked to the role of smoke in facilitating water uptake by seeds (imbibition). A simple and rapid bioassay was implemented to detect the germination activity of extracts from soils in pre/post-burn status. Soil samples taken from burnt, unburnt and adjacent plots at depths of 0-2, 2-4, 4-6 and 6-8 cm before and after burning mesic grassland in South Africa were analysed for germination activity over an eight-week period. Soil samples were extracted using dichloromethane and bioassayed using Grand Rapids lettuce (Lactuca sativa L.) achenes. The Grand Rapids lettuce seeds exhibited several-fold greater germination percentages when treated with extracts from burnt soil compared to the other plots. The magnitude of such an activity declined through time since burn. The Grand Rapids lettuce seeds also showed significantly greater germination percentage when treated with unburnt soil extracts compared to the control (distilled water) which indicates the existence of other factors controlling germination in unburnt soil. Germination percentage was negatively influenced in the adjacent plots which reflected the inhibitory role of smoke on adjacent plots neighbouring the burn. Findings from this study suggested that the germination activity of a burning plant-material (smoke) indeed diffuses into the soil and its persistence declines with time. Furthermore, the findings implied that fire and smoke may significantly influence the germination of the soil seed bank of mesic grassland in South Africa. The effect of smoke solutions of various concentrations and their interaction with soil macronutrients NPK in influencing seedling growth of three selected grass species namely, Eragrostis curvula, Panicum maximum and Themeda triandra was investigated. These grass species were selected on the basis of the contrasting response they previously showed to smoke treatments. Results showed that the interaction between species, treatment and nutrients for seedling vigour index was highly significant (P < 0.001). In the absence of NPK elements, the smoke solutions generally enhanced seedling growth in Themeda triandra, while suppressing seedling vigour indices of Eragrostis curvula and Panicum maximum. It is ecologically significant that not only smoke but also its interaction with soil macronutrients appears to be important in structuring the post-fire regeneration and colonisation processes. To examine the effect of fire-associated cues of smoke and high temperature on germination and seedling emergence from the mesic grassland soil seed bank in South Africa, and disentangle responsible factors, the effect of heat and smoke-water on seedling emergence and the resultant effect on biomass production was examined in a greenhouse tray experiment over 90 days. Soil seed bank samples obtained from 0-5 cm top soil were treated with smoke-water solution (SW 1:500 v/v), heat (H = 100 °C for 15 min) and heat + smoke-water (H = 100 °C for 15 min + SW = 1:500 v/v) combined. Significantly, the highest number of seedlings emerged from soil seed bank samples treated with heat + smoke-water combined followed by smoke-water alone. Heat + smoke-water treatment of soil seed bank samples also significantly enhanced the rate of seedling emergence and total dry biomass production. Heat treatment by itself was not statistically different from the control in many respects. Generally, these results suggest that both heat and smoke are important germination cues and play a curial role on germination and seedling emergence from the mesic grassland soil seed bank. A greater number of fire-loving Themeda triandra seedlings emerged from soils treated with smoke, though this was not statistically significant. Seedling emergence indicators showed that seedling emergence was favoured more by smoke and smoke + heat treatments compared to the control. Seedling growth indicators also showed that soil samples treated with smoke or smoke + heat combined produced significantly higher biomass than untreated samples. In general, findings from this comprehensive study suggest that plant-derived smoke and its interaction with temperature (heat) and soil nutrients significantly influences seed germination and seedling growth of South African mesic grassland species differently, this can further influence the grassland composition. The association of certain fire-climax species with the re-occurrence of fire can partly be explained due to the association of such species with fire-induced changes in the habitat. Post-fire conditions of low nutrient (NPK) availability, presence of high heat and smoke cues in the habitat may favour the competitive ability of native short and smoke-responsive species such as Themeda triandra and Tristachya leucothrix over those characteristic species of fertile habitats such as Eragrostis curvula and other non-smoke-responsive species. / Thesis (Ph.D.)-University of KwaZulu-Natal, Pietermaritzburg, 2010.

Germination--South Africa.

Veld plants--Growth.

Grasses--South Africa.

Grasslands--Management.

Theses--Botany.

Effects of management on biodiversity and productivity of grazed grassland

Jerrentrup, Jana Sabrina

19 November 2013

Die Nutzung von Beweidung zur Erhaltung und Förderung von Biodiversität wird allgemein als positiv erachtet, da so strukturell diverse Flächen erhalten werden können. Die Auswirkungen unterschiedlicher Managementszenarien auf die Artenvielfalt sind zwar weitreichend untersucht, auf Langzeitexperimenten jedoch sehr rar. Mit unserem ersten Experiment wollten wir die Frage beantworten, welche Nutzungsintensität am besten geeignet ist, um Diversität von Insekten zu fördern. Das dafür genutzte Langzeitexperiment wurde 2002 mit zwei Beweidungsintensitäten etabliert und eine dritte Intensitätsstufe 2005 eingeführt. Zwischen 2002 und 2004 sowie 2010 und 2011 wurde der Einfluss der Beweidungsvarianten auf die Insektendiversität im Sinne des Artenreichtums und der Abundanz von Heuschrecken (Orthoptera) und Tagfaltern (Lepidoptera) aufgenommen. Wie erwartet, zeigte sich bei intensivster Beweidung die geringste Diversität. Trotzdem war die extensivste Beweidung nicht vorteilhafter als die mittel intensive Beweidung. Aus diesem Grund empfehlen wir eine mittelstarke Beweidung, da diese besonders geeignet ist um eine ausreichende Narbenhöhe und eine strukturell diverse Grasnarbe zu schaffen. Dieses Management zeichnet sich durch vielfältige ökologische Nischen aus, die einer Bandbreite von unterschiedlichen Arten Habitat bieten, wovon besonders weniger mobile Herbivoren wie Heuschrecken profitieren können. Wenn Pflanzendiversität im Vordergrund steht, muss auch die Art des Weidetiers betrachtet werden, da sich die Tierarten in ihren Beweidungseigenschaften unterscheiden und demnach auch Vegetation und Narbenstruktur beeinflusst werden können. In einem zweiten Experiment haben wir deshalb den Einfluss von Rindern und Schafen in Monobeweidung als auch in Mischbeweidung untersucht. Eine Hälfte der Parzellen wurde mit Herbiziden gegen Dikotyle behandelt um den Weidetiereffekt in Abhängigkeit der Narbenzusammensetzung zu analysieren. Das Experiment wurde zwischen 2007 und 2011 beweidet und die Vegetationszusammensetzung jeweils vor jeder Beweidungsperiode und zusätzlich im Jahr 2012 aufgenommen. Die beiden Narbentypen zeigten wie erwartet deutliche Unterschiede in Zusammensetzung und Diversität. Dahingegen unterschieden sich die Weidetier-Varianten nur marginal voneinander. Die Rinderparzellen wiesen zwar eine höhere alpha-(Artenreichtum) als auch beta-Diversität auf, allerdings war dieser Effekt nur in einem Jahr auf jeweils einem Narbentyp zu finden. Zusammenfassend können gewöhnliche Weiden in ihrer Vegetationszusammensetzung und -diversität mithilfe unterschiedlicher Tierarten nur geringfügig gesteuert werden. Es konnte lediglich ein marginaler Vorteil von Rinder- gegenüber Schafbeweidung festgestellt werden Auf demselben Experiment waren wir weiterhin daran interessiert, wie pflanzliche Diversität und agrarische Produktivität miteinander verbunden sind. Unsere Ergebnisse verneinen jedoch einen positiven Zusammenhang. Weiden besitzen wahrscheinlich ein genügend großes Arteninventar auch bei artenarmer, herbizidbehandelter Ausprägung, so dass eine komplementäre Ressourcennutzung bereits ausgeschöpft wird. Im Gegensatz dazu enthielten die artenreicheren Futterproben tatsächlich mehr Rohprotein und weniger ADF, so dass von einer gesteigerten Futterqualität gesprochen werden kann. Diese Ergebnisse könnten jedoch auch durch ein erhöhtes Vorkommen von Leguminosen erklärt werden, da auf dem Versuch aufgrund des Designs eine hohe Korrelation von Artenreichtum mit Kräutern und Leguminosen besteht. Hinsichtlich der unterschiedlichen Weidetiere konnte kein signifikanter Effekt weder auf Primärproduktivität noch auf Futterqualität festgestellt werden. Über alle Jahre hinweg zeigte sich vor allem die Phytodiversität als förderlich für die Lebendmassezunahmen der Lämmer. Zudem konnte die Mischbeweidung zu einer gesteigerten Wachstumsintensität von Lämmern und Mutterkühen beitragen. Zusammenfassend kann Beweidung genutzt werden um die Narbenstruktur zu steuern, was vor allem durch eine Anpassung der Beweidungsintensität erreicht werden kann. Nachfolgend wird sich die Intensität auf die Biodiversität aus, die jedoch durch die Wahl des Weidetieres nur recht geringfügig beeinflusst wird. Auch wenn die Primärproduktivität nicht mit dem Artenreichtum verbunden war, so kann durch das Hinzukommen von Kräutern und Leguminosen doch eine Steigerung der Futterqualität erreicht werden, die sich auch in höheren Lebendmassezunahmen der Lämmer wiederspiegelt. Demnach kann durch ein geeignetes Graslandmanagement Einfluss auf die Biodiversität genommen werden, welche wiederum das Potential besitzt, die tierischen Leistungen zu steigern.

630

cattle

sheep

biodiversity

plant diversity

butterflies

grasshoppers

animal productivity

grassland

pastures

sward structure

spatial heterogeneity

grazing

sward productivity

forage quality

Land- und Forstwirtschaft (PPN621302791)

Influence of drought or elephant on the dynamics of key woodland species in a semiarid African savanna.

MacGregor, Shaun Donovan.

January 2000

Extensive drought - and elephant-related dieback of Colophospermum mopane and Acacia tortitis, respectively, offered an opportunity for increasing understanding of the causes of drought-related patch dieback, the factors influencing elephant utilization of woody plants, and the response of woody plants to both aforementioned determinants of savanna structure and function. The dendrochronological analysis of both species was undertaken to estimate potential rates of replacement, following extensive mortality. Areas of discrete dieback were compared with adjacent paired areas of 'healthy' vegetation, which revealed, on average, 87% and 13% loss of basal area by mortality, respectively. 'Live' and 'dead' plots did not differ in soil type, topography or mean slope, but differed in vegetation structure, soil surface condition, and soil chemistry. Although there was evidence of self-thinning, neither inter - nor intra-specific competition explained dieback. 'Dead', by comparison with 'live' plots, had changed from functioning as sinks of sediment and water to sources, were less likely to retain water because of a poor soil surface condition, and were predisposed to drought effects because of a greater proportion of fines, and Na concentration. Dieback resulted from insufficient soil water for survival during a drought owing to the development of a dysfunctional landscape during 50 years of livestock ranching. Spatial heterogeneity within a landscape was suggested to enhance woodland resilience to severe droughts by ensuring the survival of plants in run-on sinks or 'drought refuge' sites. Stem sections were removed from 40 multi-stemmed C. mopane trees and prepared for examination under a dissecting microscope. It was impossible to age C. mopane, owing to a hollow and/or dark heartwood. Nevertheless, the distribution of stem diameters suggested a single recruitment event. Fire scars attributed to the last recorded fire in 1948 could explain the trees' multi-stemmed growth form and indicate that most trees of VLNR were > 50 years of age. Growth rings were identified in 29 A. tortilis trees of unknown age, but were not correlated with annual rainfall records. Growth rates varied between trees; mean ring width ranged from 1.4 to 3.5 mm (overall mean 2.4 ± 0.1 mm). A technique was proposed for predicting growth rate from annual rainfall, using selected data, and several factors potentially influencing ring width in semiarid environs were identified. Permanent ground-based transects were located within riparian (n = 16) and Acacia (n = 5) woodlands to monitor elephant utilization. Elephant had not changed the population structure of the woodlands by 2000, but had reduced stem density from 215.6 stems ha -1 (1996) to 84.4 stems ha -I (2000). Acacia tortitis trees in the woodlands had branches removed, were debarked, uprooted and broken. Acacia tortitis trees in the riverine had lower levels of utilization, whilst Acacia nilotica trees were mostly debarked. The method of elephant feeding varies within and between woody species, provided it is within the mechanical constraints of a certain size or species. Elephant behaviour is concluded to depend on spatiotemporal variation of forage abundance/quality, abundance of a preferred species, and species response (coppice or mortality). Elephant can cause a change of vegetation state, and increase spatial homogeneity of a plant population. The remnant population of woodland trees should provide the potential for recolonization, in which case the system would reflect the stable limit cycle. However, if browsing inhibits seedling recruitment, the system could reflect either a multiple stable state system or an artificial equilibrium imposed on a stable limit cycle. / Thesis (M.Sc.)-University of Natal, Pietermaritzburg, 2000.

Woodland savannas--Management.

Plants, Effect of trampling on.

Trees, Effect of drought on.

Elephants.

Theses--Grassland science.

Beef cattle on semi-natural grasslands : production of meat and nature conservation /

Hessle, Anna,

January 2007

Diss. (sammanfattning) Skara : Sveriges lantbruksuniv., 2007. / Härtill 5 uppsatser.

The effects of oil and gas development on songbirds of the mixed-grass prairie: nesting success and identification of nest predators

Bernath-Plaisted, Jacy

14 January 2016

Over the past century, populations of North American grassland songbirds have declined sharply as a consequence of habitat destruction. Alberta’s mixed-grass prairie constitutes Canada’s largest remaining tract of native grassland. However, this region has recently undergone a rapid expansion of conventional oil and natural gas development, and few studies have documented its effects on songbird nesting success. During the 2012-2014 breeding seasons, I monitored 813 nests of grassland songbirds located at sites that varied with respect to presence/absence, distance from, and types of oil and gas infrastructure (pump jacks, screw pumps, compressor stations) and gravel roads. Nest survival was significantly lower at infrastructure sites relative to controls for both Savannah sparrow and vesper sparrow. Additionally, vesper sparrow nest density was greater within 100 m of structures. These findings suggest that habitat disturbance caused by infrastructure may result in increased frequencies of nest predation at multiple spatial scales. / February 2016

Relação solo-vegetação em ecótono campo-floresta no bioma pampa / Soil-vegetation relationship in ecotone grassland-forest in pampa bioma

Redin, Cristina Gouvêa

22 February 2017

Studies that evaluate the relationship between flora and environmental variables are extremely valid, especially for conservation purposes in ecotone areas. In this way, the aim of this study was to evaluate the influence of environmental variables on grassland and forest phytophysiognomies in order to contribute for future elaboration of management and recovery plans and to respect the phytophysiognomies domain. The study was developed in two hortos located in the municipality of São Gabriel, being Horto Cerro do Batovi - HFCB - composed only by grassland vegetation and Horto Santa Olga - HFSO - composed of grassland and forest. The soil classification was performed in the summit, backslope and footslope of the relief throughout eight toposequences arranged in grassland vegetation, four in each horto. After that, from each horizon profile, samples with preserved structure were collected for soil physical properties analysis (soil density, Ks, soil porosity, CCPMP e AD) and samples with non-preserved structure for chemical analysis and soil granulometry. We also quantified the abundance of each herbaceous-shrub species in sample units of 1m², with four units in each toposequence evaluated in the summit, backslope and footslope. In order to verify the natural abundance of δ 13C ‰ in the vegetation samples of plant material were collected at the three relief positions at each toposequence. In HFSO, besides the grassland area, forest vegetation was evaluated in two fragments. In the first fragment (FFI), located in a fluvial terrace, 40 sample units (100 m²) and 40 subunits (4 m²) were allocated for inventory of the arboreal and regenerating strata respectively. Soil samples were collected at four points. In the second fragment (FFII), located in toposequence, 20 sample units and 20 subunits were allocated and soil samples were collected in four points. The forest and grassland vegetation were characterized by floristic, phytosociological and structural analyzes. The toposequences were characterized by physical, chemical and morphological properties of the soil. In order to infer about the possible flora-soil-relief relationships a multivariate statistical analyzes (PCA and CCA) were performed. Two time series were elaborated contemplating 15 years to verify vegetative changes in the study areas. The vegetation analysis showed differences among hortos due mainly to the proximity of fodder sources and grazing fallow time. HFSO presented higher frequency of species belonging, as well as grouping of forest individuals in the middle of the grassland and riparian forests. In HFCB, the riparian vegetation is composed naturally by grassland. These results corroborate the δ13C ‰ responses the material collected indicated predominance of C3 species in HFCB and a mixture of C3 and C4 taxa in HFSO. The forest vegetation occurrence is related to higher moisture and soil fertility, especially in lowland areas, but when assisted by rocky outcrops occurs in the summit and backslope of the relief. Species belonging to the families Cyperaceae, Isoetaceae, Apiaceae and Juncaceae were related to footslope conditions. During 15 years, there was an expansion of the forest fragments in HFSO, but in HFCB there were no changes in the phytophysiognomy demonstrating that the vegetation occurs naturally in the riparian environment. / Estudos que avaliem a relação entre flora e variáveis ambientais são extremamente válidos, principalmente em áreas de ecótono para fins de conservação. Nesse sentido, objetivou-se avaliar influências das variáveis ambientais em fitofisionomias campo e floresta a fim de contribuir para elaboração de futuros planos de manejo e recuperação, respeitando o domínio das fitofisionomias. O estudo foi desenvolvido em dois hortos localizados em São Gabriel, RS, o Horto Cerro do Batovi (HFCB), apenas com vegetação campestre e o Horto Santa Olga (HFSO), com campo e floresta. Ao longo de oito topossequências dispostas em vegetação campestre, quatro em cada horto, realizou-se a classificação dos solos em topo, meia encosta e baixada do relevo. Após foram coletadas amostras com estrutura preservada, de cada horizonte do perfil, para análises das propriedades físicas do solo (densidade do solo, Ks, porosidade do solo, CCPMP e AD), e amostras com estrutura não preservada para análises químicas e de granulometria. Também foi quantificada a abundância de cada espécie herbáceo-arbustiva em unidades amostrais de 1 m², sendo quatro unidades em cada topossequência avaliada, distribuídas nas três posições do relevo. Com o intuito de verificar a abundância natural de δ13C ‰ na vegetação, foram coletadas amostras de material vegetal nas três posições do relevo em cada topossequência. No HFSO além do campo, a vegetação florestal foi avaliada em dois fragmentos. No primeiro fragmento (FFI) localizado em terraço fluvial, foram alocadas 40 unidades amostrais (100 m²) e 40 subunidades (4 m²) para inventário dos estratos arbóreo e regenerante. As amostras de solo foram coletadas em quatro pontos. No segundo fragmento (FFII), localizado em topossequência, foram alocadas 20 unidades amostrais (100 m²) e 20 subunidades (4 m²), as amostras de solo foram coletadas em quatro pontos. A vegetação florestal e campestre foi caracterizada por meio de análises florísticas, fitossociológicas e estruturais. As topossequências foram caracterizadas mediante propriedades físicas, químicas e morfológicas do solo. Para inferir sobre as possíveis relações flora-solo-relevo foram realizadas análises estatísticas multivariadas (PCA e CCA). A fim de verificar mudanças vegetacionais nas áreas de estudo, duas séries temporais foram elaboradas, contemplando 15 anos. As análises vegetacionais mostraram diferenças entre os hortos, o HFSO apresentou maior frequência de espécies cespitosas, bem como agrupamentos de indivíduos florestais em meio ao campo e matas ciliares. No HFCB a vegetação ciliar é composta naturalmente por campo. Esses resultados corrobam com as respostas de δ 13C ‰ o material coletado no HFCB, o qual indicou predominância de espécies C3, e no HFSO uma mistura de táxons C3 e C4. A vegetação florestal ocorreu relacionada com maior umidade e fertilidade do solo, especialmente em áreas de baixada, porém auxiliada por afloramentos rochosos ocorreu em topo e meia encosta do relevo. Espécies pertencentes às famílias Cyperaceae, Isoetaceae, Apiaceae, Juncaceae, relacionaram-se com condições de baixada do relevo. Durante 15 anos, verificou-se expansão dos fragmentos florestais no HFSO, porém no HFCB não ocorreram mudanças na fitofisionomia, demonstrando que a vegetação campestre ocorre naturalmente no ambiente ripário.

Mosaico campo-floresta

Topossequência

Análise multivariada

Física do solo

Grassland-forest mosaic

Topossequence

Multivariate analysis

Physical of soil

Význam kamenolomů pro ochranu a ekologii středoevropských stepníků (Eresus spp.) / Significance of quarries for the conservation purposes of Central European spider \kur{Eresus} spp.

BLAŽKOVÁ, Zuzana

January 2015

Selected quarries and adjacent areas of xerophilous grassland in Bohemian karst were examined for the presence of velvet spider burrows. Selected microhabitat valuables were collected and their significance for ladybird spider analyzed.