Global ETD Search

31	Forest floor dynamics across a chronosequence in the coastal western hemlock zone Klinka, Karel January 1997 (has links) The forest floor represents the uppermost organic and organicenriched mineral soil horizons. They have been formed by the deposition of organic material and the subsequent biologically mediated decomposition. The forest floor influences rooting-zone temperature, aeration, moisture, and nutrient conditions, and hence, forest productivity. Considering the importance of the forest floor, and the fact that it is exposed to disturbance (being the surface layer), we need to assess the potential impacts our logging practices may have. Clearcutting, one of the contentious silvicultural practices used in British Columbia, is imputed to most adversely affect ecosystems and sustainability. We assessed the long-term impact of clearcutting on the forest floor by documenting changes in the thickness, chemical and biotic properties of the humus form across a chronosequence of forest stands. The study was located in the largest and most representative portion of the coastal rainforest the Very Wet Maritime Coastal Western Hemlock (CWHvm) subzone. Clearcutting West Coast hemlock Biodiversity Forest floor Humification Humus Soil fauna Plant succession Forest biodiversity Soil chronosequences Soil nutrients Soil microbiology
32	Investigation into the productivity of single- and mixed-species, second-growth stands of western hemlock and western redcedar Klinka, Karel, Collins, D. Bradley, Chourmouzis, Christine January 2001 (has links) In BC, it is required that harvested areas be regenerated with a mixture of tree species whenever appropriate to the site. This policy is based upon the assumption that increases in stand productivity, reliability, and/or biodiversity can be achieved in mixed-species stands. However, the knowledge justifying this policy is at best incomplete. Differences in forest productivity of mixed-species stands have been attributed mostly to competition. However, an increasing number of studies are providing evidence to support alternate theories, in which positive plant interactions play a major role. Positive plant interactions are divided into two components: (i) competitive reduction through structural and physiological differences in above and below ground structures, and (ii) facilitation through any positive effect on the growing environment of one plant species by another. These theories have yet to be tested in forest ecosystems. The objectives of this study, with respect to naturally established, unmanaged, second-growth stands of western hemlock (Hw) (Tsuga heterophylla (Raf.) Sarg.), western redcedar (Cw) (Thuja plicata Donn ex D. Don in Lamb.), and their mixtures, were: (1) to review the mechanisms of positive plant interactions and their potential to occur in these mixtures, and (2) to compare the productivity of these three stand types, using relative and absolute yield. West coast hemlock Forest productivity Mixed-species stands Single-species stands Volume Western hemlock Western redcedar Forest biodiversity Forest biomass Forest regeneration
33	Conservation through management : cut wood as substrate for saproxylic organisms / Lindhe, Anders, January 2004 (has links) (PDF) Thesis (doctoral)--Swedish University of Agricultural Sciences, 2004. / Thesis documentation sheet inserted. Appendix reprints four papers and manuscripts co-authored with others. Includes bibliographical references. Also partially issued electronically via World Wide Web in PDF format; online version lacks appendix .
34	A influência da biodiversidade florestal na ocorrência de insetos-praga e doenças em cultivos de tomate no município de Apiaí-SP / The influence of forest biodiversity in the occurrence of insect pests and diseases in tomato crops in the municipality of Apiaí-SP Fabio Leonardo Tomas 13 January 2011 (has links) A Mata Atlântica (MA) é um dos ambientes naturais mais ameaçados do Brasil, tendo sua área original atualmente bastante reduzida pelas ações antrópicas. As atividades agrícolas estão incluídas entre os fatores de impacto a este Bioma; e inserida na área de domínio da MA está a região de Apiaí - SP, produtora de tomate (Solanum lycopersicum L.) de mesa, uma cultura caracterizada pela sua importância alimentar, e responsável por significativos impactos socioambientais devido ao uso de agroquímicos, desmatamentos e más condições de trabalho. Devido à infestação por insetos-praga e às ocorrências de doenças agrícolas, esta cultura é considerada uma das mais exigentes em tratos culturais necessitando pulverizações constantes e uso geral de agroquímicos. Este trabalho busca ampliar o conhecimento sobre as funções que a biodiversidade florestal pode ter como um instrumento para auxiliar o manejo agrícola de insetos fitófagos e doenças em cultivos de tomate de mesa. No município de Apiai - SP, entre 2008 e 2010, foram instalados 5 módulos experimentais de cultivo de tomate em manejo agroecológico no modelo de Ilhas de Alta Produtividade (IAPs), em locais onde a biodiversidade florestal é um elemento presente no entorno. Em cada módulo de cultivo, foram analisados: a biodiversidade florestal no entorno até uma distância de 300 m nos sentidos N, S, L, O; a ocorrência de insetos-praga e doenças agrícolas e a viabilidade econômica e socioambiental. Os resultados foram comparados aos mesmos dados coletados de outros 5 cultivos convencionais da mesma região ecológica, que cultivaram variedades semelhantes, no mesmo período, em ambientes com menor biodiversidade florestal nativa em seu entorno. Os módulos experimentais de cultivo agroecológico demonstraram uma área media de cobertura Florestal Atlântica em torno de 43,82%%, com uma ocorrência media de 46 espécies arbóreas nativas com Índice de Biodiversidade Florestal de 3,87; os cultivos comparativos apresentaram áreas médias de cobertura florestal em seu entorno de 31,34 %, com uma ocorrência de 26 espécies arbóreas nativas e índice de biodiversidade florestal de 3,44. Em amostras de 20 plantas de tomate por cultivo, nas áreas experimentais, não foram identificadas a ocorrência de viroses, uma única espécies causadora de doença fúngica e um total de 4 espécies de insetos-praga foram identificadas. Os produtores convencionais comparados tiveram a ocorrência de 11 espécies de doenças fúngicas e bacterianas, com 7% de ocorrência de viroses e 7 espécies de insetos fitófagos. Os dados mostraram que existe relação da biodiversidade florestal com o número de espécies de insetos-praga nos cultivos. Em uma análise de viabilidade socioambiental entre os cultivos experimentais e comparativos, foi identificada uma maior taxa de risco, investimento, produtividade, volume de produção, e prejuízos financeiros, bem como maiores impactos ambientais e sociais entre os cultivos de tomate convencionais comparativos. Os modelos experimentais com biodiversidade florestal em seu entorno se mostraram viáveis social e ambientalmente para utilização prática na agricultura familiar na região de Apiai - SP. / The neotropical Atlantic Rain Forest (MA) is one of the most threatened natural environments of Brazil, with its original area now greatly reduced by human actions. Agricultural activities are included among the impact factors in this biome, and inserted in the area with the MA is the region of Apiaí - SP producer of tomato (Solanum lycopersicum L.) table, a culture characterized by its nutritional importance and also responsible for significant environmental impacts due to the use of agrochemicals, deforestation and poor working conditions. Due to infestation by insect pests and plant diseases this crop is considered one of the most demanding in cultivation requirements such as constant spraying and general use of agrochemicals. This work seeks to expand the knowledge about the functions that forest biodiversity can perform as a tool to assist the cultivation control in the control of phytophagous insects and diseases in tomato crop. In the district of Apiaí - SP, from 2008 to 2010, five modules have been installed for experimental cultivation of tomato in the agroecologic model called Islands of High Productivity (IAPs), in places where forest biodiversity is an element current around. The biodiversity in the surrounding forest to a distance of 300 m in the directions N, S, E, W, the occurrence of insect pests and diseases and also the economic viability and environmental impact were analyzed in each module of cultivation. The results were compared to the same data collected from five other conventional crops in the same ecological region which cultivated similar varieties in the same period in environments with less native forest biodiversity in their environment. The experimental agroecologic modules showed an average area of Atlantic Forest cover around 43.82%, with an average occurrence of 46 native tree species and forest biodiversity indices of 3.87; the conventional modules had 31.34% of atlantic forest cover, with an occurrence of 26 native tree species and forest biodiversity indices of 3.44. In the experimental areas, with sampling of 20 tomato plants/ cultivation, were not identified any occurrence of viruses but only a single species causing fungal disease and a total of four species of insect pests. The conventional producers had the occurrence of 11 species of fungal and bacterial diseases, with 7% occurrence of viruses and 7 species of phytophagous insects. The data showed that there are relationship of forest biodiversity and number of species of insect pests in crops. In analysis of economic and socio-environmental viabilities between the experimental and comparative cultivations, it was identified a higher rate of risk, investment, productivity, production volume and financial losses, as well as higher environmental and social impacts of the conventional tomato cultivations. The agroecologic experimental models with higher forest biodiversity around have proved being socially and environmentally viable for practical use in family farming in the region of Apiai - SP. Biodiversidade Doenças de plantas Ecologia da paisagem Ecossistemas agrícolas Fitossanidade Insetos nocivos Mata Atlântica - Apiaí Tomate Agroecology Forest biodiversity Islands of high productivity Plant health. Solanum lycopersicum
35	Adaptive Forest Policy : The Integration of Disaster Risk Reduction through Nature-Based Solutions in Swedish and Scottish Forest Policy Magnusson, Julia January 2021 (has links) Climate change may cause significant changes to our relationship with nature, triggering large impacts on ecosystems and the societies dependent on their ecosystem services. Forests are seen as a mitigating solution for their abilities to store carbon, provide forest products, enhance biodiversity along with other forest ecosystem services (FES). Forest’s natural systems have shown resilience against climate-induced disasters and have been acknowledged as an important tool to mitigate climate change. However, to ensure the continued supply of these services requires adaptable management of forest ecosystems through policy. This study aims to analyse how Swedish and Scottish public FES-related policy integrates the adaptive and mitigating methods used in Disaster Risk Reduction (DRR) and Nature-based Solutions (NBS). The method of this analysis relied on three theoretical approaches; Policy integration, Environmental policy integration and Frames to see how the concepts and methods of NBS and DRR are implemented within Swedish and Scottish forest policy. The results showed that the main message from both Swedish and Scottish public FES-related policy is that humans are dependent on FES, therefore the protection of forest land and species cannot be under-prioritised. Both countries’ goals focus on becoming climate neutral by 2045 with an increased (Scotland) or sustained (Sweden) bioeconomy to be achieved alongside carbon sequestration, increased biodiversity, and diversified usage of forests. Both countries recognise and use ecosystem services as a NBS to mitigate climate change and reduce disaster risk. The increase of biodiversity through afforestation, green infrastructure, and conservation as a method to create resilience is a common method of NBS within the policy documents, and its ability to prevent risks along several areal and hierarchical scales show methods of DRR. However, vague goals on the strategy to achieve this are seen within both countries’ policy which question their determination and ability to succeed. Their difference in forest ownership structure and history diverges their application of community engagement in FES management. It is now essential that both Sweden and Scotland implement a sustainable balance between their national strategy objectives for the sake of the environment and use the considerable political traction by methods of NBS and DRR to reach resilient forest ecosystems. Future research could further assess the results and consequences of the policy strategies to see if they have achieved inclusive, integrated forest resilience through adaptive policy. Forest Ecosystem Services Forest Biodiversity Nature Conservation Policy Analysis Scotland Sustainable Development Sweden Annan geovetenskap och miljövetenskap
36	THE INFLUENCE OF LOCAL AND LANDSCAPE CHARACTERISTICS ON DEER BROWSING, AND SUBSEQUENTLY THE COMPOSITION AND STRUCTURE OF FOREST UNDERSTORIES, IN INDIANA Richard D Sample (14204861) 02 December 2022 (has links) <p>White-tailed deer (Odocoileus virginianus; hereafter deer) are a keystone herbivore within forest ecosystems. While deer rely on plant species for growth, reproduction, and survival, multiple external factors can dictate browsing behavior. These factors ultimately drive browsing selection, browsing intensity, and diet composition, which in turn can shape the influence deer have on forest ecosystems. To better understand the complex relationship between deer populations, their habitat, and public perception of deer, the Indiana Department of Natural Resources partnered with Purdue University to initiate the Integrated Deer Management Project (IDMP). As part of the IDMP, this dissertation evaluated the ecological condition of deer habitat to assess the influence deer have on woody and herbaceous plant species within Indiana forests. Our study aimed to i) rank woody species according to their selection by deer and evaluate how the ranking of individual species varies across the state (Chapter 2); ii) evaluate variables and spatial extents associated with differences in browsing intensity, and evaluate different indices used to assess differences in browsing intensity (Chapter 3); iii) quantify winter deer diet composition using DNA barcoding to evaluate how diets vary across a gradient of deer densities, browsing intensities, non-native plant densities, and landscape characteristics (Chapter 4); and iv) evaluate the interactive effects of deer, non-native plant species, and landscape characteristics on the herbaceous layer of forests, while further evaluating the spatial extent at which landscape characteristics are most strongly related to herbaceous-layer composition and diversity (Chapter 5). To do this, I sampled 152 woodlots over three years across three regions of Indiana, collecting data on the browsing selection of individual woody species, the browsing intensities on all woody species, and the composition of vegetation communities (Chapters 2, 3, and 5, respectively). To address diet composition (Chapter 4), we collected deer pellet groups to analyzed diet components. We ranked a total of 63 woody species regarding their browsing selection by deer. While most of these remained consistent from region to region, 16 varied greatly in selection, as deer often showed increased selection for a given species when it resided in an area that provided greater browsing opportunities. Browsing intensity was most associated with food availability, however, it was also influenced by deer density in the region with the lowest forest cover. The twig age index of browsing intensity showed promise as the most efficient and effective index for use in Indiana woodlots. Although diet composition did not differ across regions of Indiana, we found 16 that deer consumed several uncommon taxa when the greater landscape exhibited homogenous patch composition. Similarly, deer consumed different native taxa in forested landscapes with greater deer densities in comparison to agricultural landscapes with lower deer densities. Lastly, though browsing varied within and across regions landscape characteristic, and not deer, were the most influential suite of variables. Additionally, the spatial extent at which these variables exhibited their best fit varied depending on the dependent variable being evaluated and the region of analysis. Together, our results highlight that variables ranging from the woodlot to the landscape-scale influence browsing behavior. This showcases that deer respond to variables at varying scales when browsing and in general, browse more in areas that offer the greatest benefit, whether these areas offer greater food availability or quality, or offer lower risks associated with anthropogenic development. This suggests that when managing forests for deer both woodlot and landscape context should play a role in the decision process. Although differences in browsing were observed, deer had less impact on the herbaceous layer compared to other variables we examined. This suggests that, in contemporary forests, landscape characteristics may be the drivers of changes, and species composition may reflect a long-term history of deer herbivory with less variability resulting from differences in contemporary deer abundance within and across regions. </p> Forest biodiversity Forest ecosystems Forestry management and environment white-tailed deer landscape configuration ungulate herbivory browsing impacts browsing selection ungulate diet composition
37	Biodiversity value of grassland ecological networks in afforested areas, KwaZulu-Natal, South Africa Joubert, Lize 03 1900 (has links) Thesis (MSc)--University of Stellenbosch, 2011. / ENGLISH ABSTRACT: The current biodiversity crisis requires creative initiatives for mitigating further biodiversity loss. The use of ecological networks (ENs) is such an initiative. The South African forestry industry recognizes that there is loss of biodiversity at the smaller patch scale, while attempting to mitigate this loss at the landscape scale by implementing largescale ENs. The aim of this study was to determine how representative grassland biodiversity in ENs are of similar habitat in a nature reserves (NR). The study was conducted in the northeast of the KwaZulu-Natal Province, adjacent iSimangaliso Wetland Park, which is a natural World Heritage site. A systematic approach compared a wide range of taxa, namely plants, decomposition macrofungi, vertebrates (birds and large mammals) and faunal manifestations (e.g. molehills, dung and ant nests) between the EN and nature reserve, while controlling for differences in disturbance regime. Species richness was compared using Mann-Whitney U tests, while differences in species composition were determined using Correspondence Analyses, Multi-Dimensional Scaling and Analyses of Similarity. Grassland ENs had significantly less plant species. In addition, there were differences in plant and fungi species composition. Differences were probably caused by (1) degree of isolation i.e. proximity to source habitat patches in the surrounding matrix, and (2) habitat quality. Habitat quality was determined by local disturbance regimes (e.g. grazing and fire) and plantation-induced drought for plants, and size and amount of coarse woody debris for fungi. In addition, significant differences in abundances of mole hills (NR>EN) and small mammal burrows (EN>NR) might have had an effect on succession and regeneration of plant communities. There were differences in plant species composition between grassland EN and that at the adjacent nature reserve. However, differences between EN and NR were small when compared to differences between habitat types at the landscape spatial scale. It is concluded that grassland ENs among forestry plantations contribute to biodiversity conservation in the commercially-productive landscape. This approach to land use planning should be explored for other commercial land uses. / AFRIKAANSE OPSOMMING: Die huidige biodiversiteitskrisis vereis kreatiewe strategieë om ‘n verdere verlies in biodiversiteit te bekamp. Ekologiese Netwerke (EN’e) is een voorbeeld van sulke kreatiewe strategieë. Die Suid Afrikaanse bosbou-industrie erken die verlies in biodiversiteit wat kenmerkend in plantasies gevind word. Implementering van grootskaalse EN’e kan egter die verlies aan biodiversiteit, wat in plantasies ondervind word, temper. Die doel van hierdie studie was om vas te stel hoe goed biodiversiteit in grasveld EN’e soortgelyke habitat in ‘n nabygeleë natuurreservaat verteenwoordig. Die studie was uitgevoer in die noordooste van KwaZulu-Natal, langs iSimangaliso Wetland Park wat ‘n wêrelderfenisgebied is. Ons het ‘n stelselmatige benadering gevolg waartydens ‘n wye verskeidenheid taksa, naamlik plante, makro-fungi, vertebrate (groot soogdiere en voëls) en tekens van diere-aktiwiteit (bv. miersneste, dieremis en molshope), in die EN vergelyk is met die van ‘n natuurreservaat terwyl ons vir verskillende versteuringe gekontrolleer het. Spesiesrykheid is vergelyk met Mann-Whitney U toetse terwyl verskille in spesiessamestelling vasgestel is met Correspondence Analyses, Multi-Dimensional Scaling en Analyses of Similarity. Daar was ‘n statisties beduidende verskil in die hoeveelheid spesies tussen grasveld EN’e en die natuurreservaat. Grasveld EN’e het minder plant spesies gehad. Boonop was daar verskille in die samestelling van plant en fungi gemeenskappe. Verskille was waarskynlik veroorsaak deur (1) isolasie of die hoeveelheid nabygeleë habitatbronne in die omliggende omgewing, en (2) habitat kwaliteit. Habitat kwaliteit word bepaal deur versteuringe (bv. brand en beweiding) en die uitdrogingseffek van plantasies vir plante, en die hoeveelheid en grootte van growwe houtagtige puin vir fungi. Daar was ook beduidende verskille in die hoeveelheid molshope (NR>EN) en klein soogdier gate (EN>NR), wat moontlik ‘n effek kon hê op suksessie en herstel van plantgemeenskappe. Daar was verskille in plantspesiessamestelling tussen grasveld EN’e en die van die langsliggende natuurreservaat. Hierdie verskille was egter klein wanneer dit vergelyk word met die verskille tussen verskillende soorte habitatte in die landskap. Daarom kom ons tot die gevolgtrekking dat grasveld EN’e tussen bosbouplantasies bydra tot die bewaring van biodiversiteit in kommersiële landskappe. Hierdie benadering tot grondgebruik behoort verder verken te word vir ander kommersiële bosbou en boerderypraktyke.
38	Forest management impacts on growth, diversity and nutrient cycling of lowland tropical rainforest and plantations, Papua New Guinea Abe, Hitofumi January 2008 (has links) [Truncated abstract] Globally, tropical rainforests are noted for their high biodiversity and key roles in carbon storage and influence on climate. Nevertheless, tropical deforestation in many parts of the world continues at an alarming rate. In Papua New Guinea (PNG), tropical rainforest is relatively well maintained, with about 70 % of the land area still covered by primary forest. However, PNG's native forests are coming under increasing pressure, particularly from selective logging for high quality timber. While the forests of PNG, and more broadly the entire New Guinea Island, are recognised as of high conservation and ecological significance, they remain grossly understudied with little knowledge of key ecosystem processes within lowland forests in particular. Such knowledge is urgently required if the impacts of logging and other land-use change are to be assessed and in order to develop sustainable management systems. This thesis investigated the impacts of logging on diversity and nutrient cycling in a lowland tropical rainforest growing on limestone soils in the area of the Mongi-Busiga Forest Management Agreement (FMA, which is a logging concession area), in northeastern PNG. These forests are on relatively young soils and provide a useful contrast to the majority of tropical forests. The research includes a four-year study of the recovery of diversity and structure after logging, and quantified forest structure, tree species diversity, forest biomass and productivity, and nutrient distribution and cycling. This thesis also examines the ecological sustainability of Eucalyptus deglupta plantations in Wasab, PNG as an alternative resource for timber and biomass energy. The thesis concludes with a discussion of long-term forest recovery and sustainable forest management in north-eastern PNG. Two adjacent one-hectare plots were established in lowland tropical rainforest at Mongi-Busiga FMA. One of these plots was subsequently selectively logged, one year after establishment. Before logging, the two one-hectare plots contained a total of 37 families, 70 genera and 110 tree species that were >5 cm in diameter at breast height. Mean basal area was 42.4 m2 ha-1. Two tree species, Madhuca leucodermis (Sapotaceae) and Pometia pinnata (Sapindaceae) accounted for ~60% of the total basal area. Gymnacranthera paniculata (Myristicaceae) was the most common species and accounted for 13% of individuals. ... This study concludes that the Mongi-Busiga forest has many unusual characteristics for a tropical forest, including relatively low diversity of tree species, high accumulation of P in the biomass, and N limitations, compared to other tropical rainforests. However, those extraordinary characteristics may be explained well by the underlying geology of young, marine-derived limestone. Sustainable management of the lowland tropical forests of PNG should consider the consequences of logging on nutrient cycling processes, with the possible significant removal of P from site with repeated logging, as well as the interactions between N and P in these systems. Establishment of Eucalyptus plantations on previously cleared land also has the potential to meet some of the timber and biomass energy requirements of northern PNG in ecologically sustainable manner. Rain forests -- Papua New Guinea Forest biodiversity Nutrient cycles Plantations -- Papua New Guinea Forest management -- Papua New Guinea Tropical rainforest Nutrient cycling Impacts of logging Species diversity
39	Gap regeneration in the Tsitsikamma forest (Easter Cape, South Africa) : the effect of gap size and origin Ella, Ghislain 12 1900 (has links) Thesis (MSc(For))--University of Stellenbosch, 2005. / ENGLISH ABSTRACT: Recognizing the biological significance of gaps, the South African Department of Water Affairs and Forestry (DWAF) in 1989 initiated a Gap Dynamics Project in the indigenous forests of Tsitsikamma (Eastern Cape, South Africa). This consists of three sub-projects: Koomansbos (9300 m2), created by a ground fire in 1989; Plaatbos (1600 m2), made by a Podocarpus falcatus (Thunb.) R. Br. ex Mirb. (Podocarpaceae) windfall in 1994; and nine gaps of different sizes, artificially created by selective tree felling in 1995: three small (100-150 m2), three medium (300-500 m2) and three large (800-1000 m2). All the gaps were surveyed after creation and permanent plots were established for subsequent monitoring. The current timber harvesting system practiced in South African indigenous forests attempts to minimize gap size. It has been proposed by Euston-Brown et al. (1996) that this practice is likely to benefit the more shade tolerant species, but may inhibit the regeneration of less shade tolerant plants in the forest. Therefore, the present study aimed to verify two hypotheses: gaps may close in a process that is determined by their size, their origin and the plant species characteristics; soil quality might change inside those gaps. For the purpose of the study, the gaps cited above were re-surveyed between 2002 and 2003. It was found that: 1) there was little clear difference in the community structure of plant species between gaps of different sizes and origins; as expected from the species-area relationship, large gaps had higher species richness, plant diversity and herbaceous percentage cover than medium and small gaps; diversity indices were higher in the large windfall gap than in the large fire and artificial gaps; generally, context and stochastic events were largely more important in determining gap diversity and regeneration than gap sizes and origins; 2) diversity indices in the gaps were higher than recorded previously; 3) soil pH and Electrical Conductivity were respectively lower and higher inside the gaps than adjacent to them; these variations were statistically significant. Present data on the vegetation in the gaps were compared to past measurements, and future vegetation structure has been predicted, as a function of current gap vegetation. Recommendations have been made for sustainable management of the indigenous forest of Tsitsikamma. / AFRIKAANSE OPSOMMING: Voortspruitend uit die erkenning van die biologiese belang van gapings, het die Suid-Afrikaanse Departement van Waterwese en Bosbou (DWB) in 1989 'n projek oor gapingsdinamika in die inheemse woude van Tsitsikamma (Oos-Kaap, Suid-Afrika) geïnisieer. Dit bestaan uit drie subprojekte: die gaping in Koomansbos (9300 m2) wat in 1989 deur 'n grondvuur geskep is; die gaping in Plaatbos (1600 m2) wat veroorsaak is toe bome van die spesie Podocarpus falcatus (Thunb.) R. Br. ex Mirb. (Podocarpaceae) in 1994 omgewaai is; en nege gapings van verskillende groottes wat in 1995 kunsmatig deur geselekteerde boomkappery geskep is: drie is klein (100-150 m2), drie mediumgrootte (300-500 m2) en drie groot (800-1000 m2). Alle gapings is ná hulle ontstaan opgemeet en ondersoek en permanente terreine is vir daaropvolgende monitering gevestig. Die stelsel wat tans vir die oes van hout in Suid-Afrikaanse inheemse woude gebruik word, poog om die grootte van gapings te minimaliseer. Euston Brown et al. (1996) doen aan die hand dat hierdie praktyk spesies wat meer skaduweeverdraagsaam is waarskynlik sal bevoordeel, maar die regenerasie van plante in die woud wat minder skaduweeverdraagsaam is, kan inhibeer. Hierdie studie het dus ten doel gehad om twee hipoteses te verifieer: Gapings kan toegroei in 'n proses wat deur hul grootte, oorsprong en die eienskappe van die plantspesies bepaal word; en die gehalte van die grond binne daardie gapings kan verander. Die gapings waarna hierbo verwys is, is vir die doel van hierdie studie tussen 2002 en 2003 weer gemonitor. Daar is bevind dat: 1) daar min duidelike verskille was tussen die gemeenskapstruktuur van plantspesies tussen gapings van verskillende groottes en oorsprong; soos van die verhouding tussen spesies en area verwag kan word, het groter gapings 'n hoër spesierykheid, plantdiversiteit en persentasie niehoutagtige dekking as medium- en klein gapings gehad; diversiteitsindekse was hoër in die groot Plaatbosgaping as in die groot Koomansbosgaping of die kunsmatige gapings; in die algemeen was konteks en stochastiese gebeure grootliks belangriker in die bepaling van gapingsdiversiteit en -regenerasie as gapingsgrootte of -oorsprong; 2) diversiteitsindekse in die gapings was hoër as wat voorheen aangeteken is; en 3) grond-pH en elektriese geleidingsvermoë was onderskeidelik laer en hoër binne die gapings as neffens hulle; hierdie variasies was statisties beduidend. Huidige data oor die plantegroei in die gapings is met vorige metings vergelyk, en 'n toekomstige plantegroeistruktuur is as 'n funksie van huidige gapingsplantegroei voorspel. Aanbevelings is gemaak rakende die volhoubare bestuur van Tsitsikamma se inheemse woud.
40	Snowmelt energy balance in a burned forest stand, Crowsnest Pass, Alberta Burles, Katie, University of Lethbridge. Faculty of Arts and Science January 2010 (has links) Forested watersheds in western North America are subject to significant change from natural and anthropogenic disturbance, including wildfire. Forest canopy changes have subsequent impacts on sub-canopy snow processes. A simple, process-based point energy balance model was developed to quantify differences in energy balance characteristics between a burned and a healthy forest stand. Potential model uncertainties were identified using sensitivity analyses. Simulated snowmelt accurately recreated measured snowmelt, providing confidence in the model’s ability to simulate energy balance processes in subcanopy environments where wind redistribution and sublimation are not major drivers of the local snowmelt energy balance. In the burned stand, sub-canopy snow accumulation was greater but melted more rapidly than in the healthy stand. The removal of forest canopy resulted in more energy available for snowmelt, including higher short-wave and lower long-wave radiation, and increased turbulent fluxes. Burned stands should be considered a separate land cover type in larger scale watershed models. / xii, 129 leaves : ill,, map ; 29 cm Lost Creek (Alta.) -- Fire, 2003 Snow -- Thermal properties -- Research Dissertations, Academic

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