O papel do fogo na germinação das sementes de leguminosas do Cerrado / The role of fire on seed germination of Cerrado legumes

Andrade, Luís Felipe Daibes de [UNESP]

01 December 2017

Submitted by LUÍS FELIPE DAIBES DE ANDRADE null (luipedaibes@hotmail.com) on 2017-12-09T19:13:02Z No. of bitstreams: 1 TeseVersaoFinal_LFD.pdf: 4542971 bytes, checksum: dc820c668f873e34980831a5f5f98979 (MD5) / Approved for entry into archive by Adriana Aparecida Puerta null (dripuerta@rc.unesp.br) on 2017-12-11T16:56:37Z (GMT) No. of bitstreams: 1 andrade_lfd_dr_rcla.pdf: 4542971 bytes, checksum: dc820c668f873e34980831a5f5f98979 (MD5) / Made available in DSpace on 2017-12-11T16:56:37Z (GMT). No. of bitstreams: 1 andrade_lfd_dr_rcla.pdf: 4542971 bytes, checksum: dc820c668f873e34980831a5f5f98979 (MD5) Previous issue date: 2017-12-01 / Outra / Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq) / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) / Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP) / O fogo é o principal distúrbio em diversas vegetações ao redor do mundo, denominadas ecossistemas inflamáveis. Neste contexto, muitas espécies possuem estratégias de regeneração e colonização do ambiente pós-fogo, o que tipicamente envolve a sobrevivência (tolerância) das sementes e/ou quebra da dormência. Em especial, muitas sementes de leguminosas possuem o tegumento impermeável (dormência física), que pode ser rompido por meio de choques térmicos relacionados ao fogo. Outro fator que pode auxiliar no processo de quebra da dormência física é a flutuação térmica no solo, cuja amplitude é aumentada nas clareiras formadas pela remoção da vegetação durante a queima. Ambos os fatores, fogo e flutuação térmica, são relativamente bem estudados nos ecossistemas inflamáveis da Austrália e em vegetações Mediterrâneas. Por outro lado, os padrões relacionados à quebra da dormência e germinação das sementes ainda são controversos e menos conhecidos nas savanas tropicais da África e da América do Sul. Assim, esta Tese de doutorado teve como objetivo avaliar o papel do fogo na germinação e sobrevivência das sementes de leguminosas do Cerrado. Para tanto, realizamos tratamentos em campo, incluindo queimas experimentais, e também aplicamos tratamentos no laboratório, simulando a flutuação térmica nas clareiras e a passagem do fogo (choques térmicos). Após os tratamentos, observamos a germinação em condições ótimas, fazendo contagens três vezes por semana, e realizamos testes de viabilidade ao final de 30 dias dos experimentos. As análises estatísticas consistiram basicamente em GLMMs com distribuição binomial, considerando as réplicas como efeitos aleatórios. Os resultados apontam que as sementes morrem quando diretamente expostas ao fogo na superfície do solo. Por outro lado, há uma maior probabilidade de sobrevivência quando as sementes estão localizadas em clareiras (gaps) da vegetação. Nos gaps, a maior porcentagem de solo nu proporciona temperaturas do fogo mais amenas, queimando por menos tempo. Quando enterradas 1-cm sob o solo, as sementes sempre sobrevivem e pode haver quebra de dormência. A flutuação térmica também pode quebrar uma proporção significativa da dormência em condições de campo, especialmente em Mimosa leiocephala. Em laboratório, ao contrário do esperado, não há quebra da dormência, indicando que a flutuação térmica em si não consiste um mecanismo para quebra da dormência física em espécies do Cerrado. Nos choques térmicos, poucas espécies (seis de 46) apresentaram quebra da dormência. Observamos também que a mortalidade das sementes está relacionada a um trade-off entre forma de crescimento, tamanho das sementes e presença de dormência. Isso se deve ao tamanho pequeno das sementes de arbustos, que a despeito de tipicamente ocorrerem em savana aberta, podem morrer sob condições severas dos choques térmicos, mais do que as espécies arbóreas. Dentre as espécies arbóreas, a filogenia influencia no tamanho e, consequentemente, na mortalidade das sementes frente ao fogo. Concluímos que a germinação das sementes não está diretamente ligada à presença do fogo no mosaico Cerrado-floresta, contrastando com os padrões reconhecidos para outros ecossistemas inflamáveis. / Fire is the principal disturbance in several vegetation types around the world, being called flammable ecosystems. In this context, many species have strategies to regenerate and colonize the post-fire environment, which typically involve seed survival (tolerance) and/or breaking of dormancy. In special, legume seeds usually have an impermeable seed coat (physical dormancy), which may be disrupted by fire-related heat shocks. Another factor that can help in the process of dormancy-breaking is the temperature fluctuation in the soil, which amplitude is increased in gaps formed by the removal of vegetation as a result of the passage of fire. Both factors, fire and temperature fluctuation, are relatively well studied in flammable ecosystems from Australia and Mediterranean vegetation. On the other hand, the patterns related to dormancy-breaking and seed germination are still controversial and less known in tropical savannas from Africa and South America. Therefore, this doctoral Thesis has aimed to evaluate the role of fire on germination and survival of legume seeds from Cerrado. Therefore, we conducted experiments in the field, including experimental burning, and also applied treatments in the laboratory, simulating temperature fluctuation in the gaps and fire passage (heat shocks). After the treatments, we observed germination under optimal conditions, making counting three times a week, and accomplishing viability tests by the end of 30 days of the experiment. The statistical analyses basically consisted on GLMMS with binomial distribution, considering replicates as random effects. Results pointed that seeds die when directly exposed to fire in the soil surface. On the other hand, there is a higher probability of survival when seeds are placed in vegetation gaps. In the gaps, the higher percentage of bare soil provides milder fire temperatures, lasting for less time. When buried at 1-cm belowground, seeds always survive and dormancy-breaking may occur. Temperature fluctuation can also break a significant proportion of dormancy under field conditions, especially for Mimosa leiocephala. In the laboratory, there is no dormancy-breaking, showing that temperature fluctuation itself might not be a mechanism for physical dormancy-breaking in Cerrado species. When heat shocks were applied, six out of 46 species showed dormancy-breaking. We also observed that seed mortality is related to a trade-off between growth-form, seed size and the presence of dormancy. This is due to the small size of seeds from shrubs, that although typically occurring in the open savannas, they might die under severe conditions of temperatures. Among the tree species, phylogeny influences on size and, consequently, mortality of seeds in face to fire. We concluded that seed germination is not directly linked to the presence of fire in the Cerrado-forest mosaic, contrasting to the patterns recognized for other flammable ecosystems. / Fundação Grupo Boticário 0153_2011_PR / FAPESP 2015/06743-0 / CAPES/PDSE 88881.131702/2016-01 / CNPq 455183/2014-7

Choque térmico

Dormência física

Ecologia do fogo

Fabaceae

Flutuação térmica

Regeneração

Savana

Heat shock

Physical dormancy

Fire ecology

Temperature fluctuation

Regeneration

Savanna

Ecologia,manejo e conservação do buriti (Mauritia flexuosa; Arecaceae) nos brejos do Brasil Central / Ecology, management and conservation of buriti (Mauritia flexuosa; Arecaceae) in swamp forest of the Central Brazil

Sampaio, Maurício Bonesso, 1981-

05 November 2012

Orientador: Flávio Antonio Maes dos Santos / Tese (doutorado) - Universidade EStadual de Campinas, Instituto de Biologia / Made available in DSpace on 2018-08-20T22:28:27Z (GMT). No. of bitstreams: 1 Sampaio_MauricioBonesso_D.pdf: 3416891 bytes, checksum: c71b6c5c4b8c2cd948a940d49149b307 (MD5) Previous issue date: 2012 / Resumo: Florestas geram subsistência e renda para comunidades rurais, por meio do extrativismo de produtos florestais não madeireiros (PFNM), agricultura de coivara, criação de gado e porcos, etc. Estas atividades podem ser alternativas econômicas de menor impacto do que o corte seletivo de madeira e a conversão das florestas em monoculturas. Porém, a sustentabilidade em longo prazo depende da intensidade de uso, que é influenciada por fatores socioeconômicos dos usuários. É possível avaliar tanto os impactos ecológicos, quanto os fatores socioeconômicos que influenciam o uso das florestas. Modelos matriciais têm sido utilizados para avaliar os efeitos de perturbações na dinâmica populacional das plantas. Nestes modelos são usadas matrizes de transição, construídas a partir de dados demográficos de uma população, cujos indivíduos são classificados em estádios ontogenéticos, classes de tamanho ou idade. Os estádios ontogenéticos são definidos por características morfológicas dos indivíduos que se modificam durante o ciclo de vida. Os parâmetros demográficos podem ser influenciados por perturbações naturais ou antrópicas. As taxas de crescimento populacionais são calculadas e comparadas entre populações sujeitas a diferentes intensidades de perturbações, como o extrativismo de PFNM. Outras fontes de perturbação, como o fogo, podem interferir na avaliação dos impactos do extrativismo de PFNM e precisam ser incluídas nos modelos matriciais para aumentar o seu realismo. O buriti (Mauritia flexuosa) é uma palmeira sujeita à intenso extrativismo de frutos nos brejos do Cerrado. Os frutos são utilizados para a produção de doces e óleo. Além do extrativismo de frutos de buriti, os brejos são utilizados para a criação de gado e porcos, para o estabelecimento de roças de coivara e são sujeitos a queimadas frequentes. Os objetivos deste estudo foram: (i) avaliar se as alterações ao longo do ciclo de vida nas características dos indivíduos de buriti estão relacionadas às variações nos parâmetros demográficos; (ii) estimar a intensidade sustentável de extrativismo de frutos de buriti e a frequência máxima de queimadas tolerada pelas populações de buriti; e (iii) avaliar a influência das condições socioeconômicas das comunidades do entorno no uso dos brejos. Identificamos quatro estádios ontogenéticos para o buriti utilizando duas características macro-morfológicas (presença/ausência do estipe e atividade reprodutiva) e uma medida quantitativa (altura). Cada estádio identificado tem contribuição particular para a dinâmica das populações de buriti. O extrativismo de frutos de buriti não deve reduzir mais que 70% da fecundidade das populações para ser sustentável em longo prazo. As queimadas bienais, frequentes no Brasil Central, podem causar a mortalidade de indivíduos reprodutivos e reduzir o tamanho das populações em longo prazo. Agricultura de coivara é praticada em 72% dos 75 brejos avaliados e mais da metade dos brejos são utilizados para a criação de gado. Os recursos dos brejos são igualmente importantes para todas as classes sociais avaliadas, mesmo os fazendeiros mais ricos. A alta intensidade de uso dos brejos verificada sugere que para a sua conservação, as práticas de manejo atuais terão que ser modificadas, principalmente em relação ao uso do fogo / Abstract: Forests are sources of income and subsistence to rural communities around the world by means of activities such as harvesting of non-timber forest products (NTFPs), slash-andburn agriculture, cattle and pigs raising. These economic activities may be alternatives of lower impact to selective logging or large monocultures. However, the long term sustainability of these alternatives depends on the use intensity. Socioeconomic conditions of users may influence the forest use intensity. It is possible to assess both the ecological impacts of NTFPs harvesting and the socioeconomic conditions. Matrix models have been used to evaluate the harvesting impacts on plant population dynamics. Lefkovitch matrix is frequently required to apply these models. To construct this matrix is required demographic data from a population, whose individuals are classified into ontogenetic stages or size classes. Ontogenetic stages are defined by macro-morphological characteristics of individuals that are correlated to the variation in demographic parameters along the life cycle. Population growth rates are calculated and compared by matrix models among populations with different intensities of disturbance, such as NTFP harvesting. Other human disturbance sources, such as fire, may influence the evaluation of harvesting impacts. Thus, these disturbances should be considered in the matrix models to improve their realism. Buriti (Mauritia flexuosa) is a palm species subjected to high intensity fruit harvesting in the swamp forests of Cerrado. Fruits are processed to candies and oil production. In addition to fruit harvesting, swamp forests are used to cattle and pig raising, to slash-and-burn agricultural practices and are frequently subjected to fire. This study aimed to: (i) to assess the macro-morphological characteristics of individuals to define the ontogenetic stages of buriti (Mauritia flexuosa; (ii) to assess the sustainable buriti fruit harvesting intensity and the highest fire frequency tolerated by buriti populations; and (iii) to assess the influence of buriti harvesters socioeconomic conditions on the multiple resources use. We identified four ontogenetic stages to buriti using only two macromorphologic characteristics (presence/absence of aerial stem and reproductive activity) and one quantitative variable (height). Each identified stage has a single contribution to buriti population dynamics. Fruit harvesting may be sustainable only if it causes a reduction of up to 70% in the population fecundity. Biennial burning of swamp forests, common in the Central Brazil, may increase the mortality of reproductive individuals and decrease the population size at long term. Slash-and-burn agriculture occurs in 72% of the 75 evaluated swamp forests and more than a half of these forests are used to cattle raising. Swamp forests resources are equally important to all socioeconomic classes, even richer farmers. The high intensity of swamp forest uses suggests that their conservation will require change to current management practices, mainly the fire frequency / Doutorado / Biologia Vegetal / Doutor em Biologia Vegetal

Ecologia de populações

Palmeira

Produtos florestais não-madeireiros

Fogo e ecologia

Recursos naturais

Population ecology

Palms

Non-wood forest products

Fire ecology

Natural resources

13,000 years of fire activity in a temperate rainforest on the Central Coast of British Columbia, Canada

Hoffman, Kira M.

10 April 2018

While wildfire is globally most common in the savanna-grassland ecotone, the flammability of coastal temperate rainforests is considered low and little is known regarding historic fire activity. Reconstructing historical fire activity typically requires dendrochronological records from fire-scarred trees and post-fire cohorts, but this type of information is rare in perhumid temperate rainforests, which are dominated by dense fuels with high year-round moisture content. I reconstructed historic fire activity using fire scars, tree rings, soil charcoal, and remote sensing techniques in a 2000 km2 island group located within the Hakai Lúxvbálís Conservancy on the coastal margin of central British Columbia. I broadly assessed 13,000 years of fire activity with charcoal deposited in soils, and reconstructed late Holocene fire events with a 700-year chronology built from living fire-scarred trees and stand establishment data. I used a weight of evidence approach to hypothesize the origins of fires and whether First Nations intentionally utilized fire for resource management. Low-severity fires occurred most frequently in forests surrounding former First Nations habitation sites, and lightning strikes do not occur often enough to explain the observed temporal or spatial patterns of fire activity in the study area. Low-severity fires occurred approximately every 39 years, and were 25 times more likely to occur than previously estimated. Fires influenced the composition and structure of vegetation by creating a mosaic of vegetation types in different stages of succession, and thus increased the abundance of culturally important food plants. Fire events have not occurred in the study area since 1893, which also coincides with the reduction of First Nations activities in their traditional territories. My data are consistent with the hypothesis that humans intentionally used fire to manage resources, though further research and ethnographic data collected elsewhere in the region is required to corroborate these findings. Ecological legacies of historic fires remain visible on the present day landscape, and by reconstructing the historic range of fire cycle variability we gain a better understanding of human-driven fire activity and the abrupt changes that occurred in the 20th century. / Graduate

Fire ecology

Traditional fire management

British Columbia

Perhumid rainforests

Coastal Temperate Rainforest

Canada

Cultural burning

Dendroecology

Holocene

Soil charcoal

Ecological legacies

Remote sensing

Ethnoecology

Western redcedar

Termite responses to long term burning regimes in southern African savannas : patterns, processes and conservation

Davies, Andrew Byron

21 June 2010

Termites are considered to be major ecosystem engineers in tropical and sub-tropical environments, and fire in savanna systems is regarded as a major and necessary disturbance for the maintenance of biodiversity. However, most fire ecology studies have focused on vegetation dynamics with little attention given to other taxa, especially invertebrates. This thesis has addressed several aspects of savanna termite ecology. First, based on a review of studies examining the relationship between fire ecology and termites, I found that few broad conclusions can be made based on the published literature. Hence little is known on the interactions between termites and ecological processes such as fire. Leading on from this, several recommendations are provided in the thesis for future research to improve ecological understanding of savannas and the dynamics that structure these systems. Second, savanna termite responses to long-term burning regimes were investigated across four distinct savanna types along a rainfall gradient in South Africa using comprehensive sampling protocols. This was achieved using experimental burning plots which have been in place in the Kruger National Park (KNP) since 1954 as well as sites in Hluhluwe-iMfolozi Park. Termite communities were found to differ significantly between these savannas with higher diversity at Pretoriuskop, a mesic savanna but not the wettest. Termite diversity was lowest at the most arid site (Mopani) but certain feeding groups peaked at Satara, a savanna with intermediate rainfall. Differences between these savannas are attributed to broad underlying changes in net primary productivity, temperature and soil type, with the role of mammalian herbivores also being considered. Seasonality was also examined and it was found that termite activity peaks in the wet and transitional seasons and is significantly lower in the dry season. Considering different fire regimes, termites, in general, were found to be highly resistant to burning, but assemblage composition was affected, this being more pronounced at the mesic savanna where fire has more effect on vegetation. These assemblage changes are linked to changes in vegetation structure caused by fire. Finally, termite ecology is often constrained by sampling difficulties and a lack of sampling protocols in savannas. A comparison of two often used sampling methods, baiting and active searching, was conducted across the savanna types studied. The efficiency of sampling method varied along the rainfall gradient and a single method was not the best for all savanna types. In mesic savannas, active searching (an often neglected sampling method in savannas) was most effective at sampling termite diversity while baiting was more effective in arid savannas, although this method is biased toward wood-feeding termites from feeding group II. Baiting also provides a better measure of termite activity than active searching. I demonstrate that termite communities differ significantly with savanna habitat and their responses to long-term burning regimes differ between these habitat types. Although termite communities were found to be quite resistant to burning, the degree of resistance differed with savanna type and management policies in protected areas and elsewhere need to take this into account when formulating conservation policies. Similarly, sampling methods differ in their efficiency at different sites which needs to be considered when designing sampling protocols in order to accurately reflect the biodiversity present. / Dissertation (MSc)--University of Pretoria, 2010. / Zoology and Entomology / unrestricted

Fire ecology

Hluhluwe-Imfolozi Park

Invertebrates

Kruger National Park (South Africa)

Long-term burning regimes

Rainfall gradient

Sampling protocols

Savanna

Seasonal differences

Termites

UCTD

Post-fire Vegetative Regrowth Associated with Mature Tree Stands and Topography on Sofa Mountain

O'Connor, Erin E.

01 June 2015

No description available.

Biology

Ecology

Environmental Science

Forestry

Geographic Information Science

Geography

Remote Sensing

fire ecology

forestry

forest management

landscape ecology

GIS

remote sensing

geography

Alberta

wildfire

The effect of burning frequency on invertebrate and indigenous flowering forb diversity in a Drakensberg grassland ecosystem.

Arnott, Wendy Lynn.

January 2006

The KwaZulu-Natal Drakensberg, South Africa, is predominantly a grassland ecosystem maintained by fire. The effect of the current burning regime on invertebrate and flowering forb diversity in this ecosystem is poorly understood. The overall aim ofthis study was to contribute towards the development of an effective burning regime for the KwaZulu-Natal Drakensberg that will conserve invertebrates and indigenous forbs, two major components of biodiversity. The objectives were to examine the effect of fire and fire frequency on flowering forb and invertebrate species diversity, to determine whether fire frequency, time since last burn or locality were influencing species composition, and to identify potential biodiversity indicators that reflect overall species richness for use in monitoring of invertebrates and forbs. Sampling took place in March, September and November of 2002 at Giants Castle Game Reserve. Invertebrates were sampled using sweep netting and targeted netting along transects, yellow pan traps and soil quadrats. Invertebrate taxa sampled were ants (Formicidae), butterflies (Lepidoptera), grasshoppers (Orthoptera), leafboppers (Cicadellidae), bees (Apoidea), bee flies (Bombyliidae), hover flies (Syrphidae), robber flies (Asilidae), spiders (Araneae), earthworms (Oligochaeta) and millipedes (Diploda). These were identified to species level with the assistance of taxon experts. Flowering forbs were sampled using five replicates of five by five metre quadrats randomly placed in each site. Overall flowering forb and invertebrate species diversity was higher in grasslands that were burnt for two consecutive years in 2001 and 2002 than in grasslands that were not burnt during those two years. Frequently (annual) and intermediately (biennial) burnt grasslands had significantly higher invertebrate and flowering forb diversity than infrequently (five years without burning) burnt grasslands. This, together with the fact that grasslands burnt during the year of sampling had higher species richness than grasslands burnt two and five years previously suggests that invertebrates and forbs are generally resilient to fire and many forb species appear to be stimulated by fire. However, each burn frequency had its own suite of unique flowering forb and invertebrate species. Invertebrate communities were influenced mostly by locality and the length of time past since the last fire and flowering forb communities were influenced mostly by the length oftime past since the last fire. Fire frequency had the least influence on both invertebrate and forb communities. Ecological succession occurred after each fire in the invertebrate communities but forb communities appear to need more than five years without fire for ecological succession to occur. The findings of this study therefore suggest that using a combination of three fire frequencies would result in patches of grassland in various stages of ecological succession, and would conserve species unique to each burning frequency, and would therefore conserve maximum diversity. Flowering forb species richness and certain invertebrate taxa (ants, leafboppers, spiders and bees) have the potential to act as indicators of overall invertebrate species richness for use in monitoring programmes. / Thesis (M.Sc.)-University of KwaZulu-Natal, Pietermaritzburg, 2006.

Fire ecology--Drakensberg mountains.

Mountain plants--Drakensberg mountains.

Invertebrates--Drakensberg mountains.

Wild flowers--Drakensberg mountains.

Biodiversity conservation.

Biodiversity--Measurement.

Invertebrates--Conservation.

Species diversity.

Grasslands--Management.

Prescribed burning.

Theses--Grassland Science.

Post-fire effects of invasive exotic plants on seed banks, regeneration, soil chemistry and selected soil microbial populations in the Silvermine Nature Reserve, Cape Peninsula, South Africa

Cilliers, Charl Daniel

04 1900

Thesis (MSc) -- University of Stellenbosch, 2002. / ENGLISH ABSTRACT: The fires, which occurred during January 2000 on the Southern Cape Peninsula, Cape Province, South Africa, focused attention on the importance of sound, informed management of exotic plant invaders in fynbos, especially at the urban interface. The fires also highlighted the relative lack of knowledge about the combined impacts of fire, exotic plants and the exotic-clearing programme on soil seed banks and regeneration. This study examines soil borne seed banks, regeneration, soil chemistry and micro biota in different postfire environments, focusing on three components of exotic plant management: The post-fire effects of standing invasive exotic plants; stacks of slashed exotic plant material which were deliberately burnt and stacks reduced to heat scars by a wildfire. The primary hypothesis addressed is that post-fire vegetation regeneration patterns, seed bank diversity and seed bank abundance are linked to pre-fire vegetation characteristics and, in particular, to the treatment of exotic plant species. It is also hypothesised that soil microbe population sizes are linked to pre-fire vegetation and soil chemical composition. Differences in soil seed banks, soil micro biota and vegetation regeneration patterns occur in different post-fire environments. High volumes of (live or dead) woody exotic biomass negatively impact upon postfire indigenous species diversity and abundance, both above and below-ground. Soil seed banks and above-ground regeneration decline with increasing fire intensity, wildfire burnt stack treatments showing the largest declines followed by wildfire burnt standing exotics, control burnt stacks, wildfire burnt cleared areas and wildfire burnt Mountain Fynbos treatments. Persistent indigenous seed banks are found under some exotic dominated stands. Heat damage, associated with high woody exotic biomass, affects seeds of all species into deep soil layers. Depth of burial is a more important determinant of seed survival during fires than seed size. Soil microbial populations are variably affected by exotic plants, their management and increases in fire intensity. The most drastic microbial population changes are in post-fire treatments of high exotic plant biomass. Soil chemistry affects microbial population sizes as does seasonal climatic changes. In this thesis vegetation, seed bank and microbial responses to various exotic plant management practices are shown and management recommendations are made. Keywords: exotic plants, fire, Fynbos Siome, microbes, post-fire succession, soil seed banks. / AFRIKAANSE OPSOMMING: Die Januarie 2000 vure op die Suid Kaapse Skiereiland het fokus gerig op die belangrikheid van goeie, ingeligte bestuur van uitheemse indringerplante in fynbos, veral naby stedelike gebiede. Die vure het ook 'n relatiewe .gebrek aan kennis aangaande die gekombineerde impakte van vuur, uitheemse plantegroei en indringer plant beheer programme op grond saadbanke en die hergroei van plante na 'n vuur aan die lig gebring. Hierdie projek bestudeer die invloed van vuur op grond saadbanke, hergroei van plante, grond chemie en mikro-organismes. Die klem lê op drie komponente van uitheemse plant bestuur: waar staande uitheemse plante voorkom; waar skoongekapte uitheemse plante in hope gestapel is en gekontraleerd gebrand is en waar soortgelyke hope in 'n onbeplande weghol vuur gebrand is. Die primêre hipotese is dat plant herstelpatrone, saadbank diversiteit en grootte gekoppel is aan veldtoestande voordat daar gebrand is, en veral aan die bestuur van uitheemse plantspesies. Nog 'n sentrale hipotese is dat die grootte van grond mikrobiale populasies gekoppel is aan veld toestande voor die brand en aan grond chemiese samestelling. Hierdie studie dui verskille aan in grond saadbanke, mikro-organismes en plant hergroeipatrone onder verskeie toestande na vuur. Die brand van hoë volumes (lewende of dooie) houtagtige uitheemse plant biomassa benadeel inheemse plant spesie diversiteit en getalle (bo en onder die grond oppervlak). Grond saadbanke neem af met vehogings in vuur intensiteit. Die grootste afnames is in wegholvuur gebrande gestapelde uitheemse plantmateriaal gevolg deur wegholvuur gebrande staande uitheemse plante, opsetlik gebrande hope uitheemse plante, gebrande skoongekapte areas en wegholvuur gebrande Berg Fynbos. Ou inheemse saadbanke is gevind onder sommige areas wat voor die vuur oorheers was deur uitheemse plantegroei. Hitteskade, geassosieer met hoë volumes houtagtige uitheemse biomassa, affekteer sade van alle spesies tot diep in die grond. Saad oorlewing tydens brande is meer geaffekteer deur diepte van begrawing in die grond as deur saad grootte. Grond mikro-organisme populasies is geaffekteer deur uitheemse indringer plante, die bestuur van uitheemse plante en vuur intensiteit. Die grootste veranderinge is waar die biomassa van uitheemse plantegroei baie hoog is. Grond chemiese samestelling en seisoenale veranderinge in weerspatrone affekteer die grootte van mikrobiale bevolkings. In hierdie tesis word verskille in plantegroei, saad store en grond mikrobes, soos geaffekteer deur uitheemse plant beheer programme uitgewys en voorstelle vir toekomstige bestuur gemaak. Sleutelwoorde: Fynbos Bioom, grond saad stoor, mikrobes, plant hergroei, uitheemse plante, vuur.

Botany -- South Africa -- Cape Peninsula

Dissertations -- Botany

Succession in sand heathland at Loch Sport, Victoria : changes in vegetation, soil seed banks and species traits

Wills, Timothy Jarrod, 1974-

January 2002

Abstract not available

Heathlands -- Victoria -- Loch Sport

Fire ecology -- Victoria -- Loch Sport

Effects of fire on seedling establishment in upland prairies in the Willamette Valley, Oregon

Maret, Mary P.

17 December 1996

Prior to European settlement, native prairie dominated the landscape of the Willamette Valley. Today, due to urbanization, agriculture, and the cessation of burning, only isolated remnants of these grasslands still exist. In response to conservation concerns, there has been a move to restore the remaining prairies in the Willamette Valley, and prescribed burning and sowing native seed are often top candidates for grassland restoration. However, the effects of burning on native seedling establishment and the spread of weedy exotics are largely unknown. In this study, I investigated how prescribed burning affects native and exotic species seedling establishment on three upland prairie vegetation types in the Willamette Valley. The general approach was to sow a known number of seeds from several native and exotic grassland species into experimentally manipulated plots, designed to separate the effects of litter removal from the other effects of burning, and to monitor seedling densities. Germinability and dormancy characteristics of the sowed seeds were also addressed. An additional study focused on the fire temperatures at soil surface in three grassland vegetation types and two burn sizes. Burning increased the establishment of most or all of the sown native species in the two low quality, exotic grass sites. Exotic seedling establishment also tended to increase, but did not differ significantly from unburned plots for most species tested. On the higher quality, native bunchgrass site, burning did not significantly improve native species establishment, but did significantly increase the establishment of short-lived exotic species over those in unburned plots. The germination and dormancy characteristics of the native and exotic species tested indicate that grasses, both native and exotic, are more likely than forbs to be non-dormant in the autumn following dispersal. Forbs, especially native forbs tend to require cold-stratification for maximum germinability. During grassland fire, temperatures at soil surface were relatively cool. Fire temperature intensity was highest in the higher quality native bunchgrass vegetation. These burns reached higher temperatures significantly closer to the soil surface than the plot burns in lower quality sites dominated by annual or perennial exotic grasses. Average temperatures in a two hectare broadcast burn and in replicated 2m x 2.5m plot bums in an annual exotic grassland were very similar. Prescribed burning can be an excellent tool for the restoration of low-quality upland prairies when combined with sowing native seeds in the fall. However, on high-quality prairie, prescribed burning may be a poor restoration choice for promoting native seedlings, as burning promoted weedy species without enhancing native seedling establishment. / Graduation date: 1997

The Schultz Fire : an interdisciplinary perspective on its history, management, and ecological effects

Ranseen, Susanne N.

28 February 2013

This thesis examines the Schultz Fire as a case study to explain the complex history of fire suppression management in America’s forests, and to gain further understanding of how management practices have affected the increase in fire severity levels and how forests respond to such a disturbance. The thesis objectives were: (1) to analyze the causes of the fire severity of the Schultz Fire, especially: topography, fuels, or weather; (2); to examine the possible correlation between fire severity and tree density; (3) to investigate whether post-fire species richness was related to fire severity two years after the Schultz Fire; (4) to investigate whether post-fire plant species richness, plant cover, and tree regeneration was related to fire severity two years after the Schultz Fire; and (5) to interlink and convey how these factors relate to the history of fire management and policy and public perception. The history of fire related policy and management has significantly changed the dynamics of America's national parks and forests. Understanding the larger context of this history, both of national fire management and of the effects of language and perception on policy and public reaction, is part of understanding the Schultz Fire as a whole. Based on modeling, high winds combined with the presence of high surface fuel load were the main causes of the Schultz Fire's high fire severity levels. As fire severity increased there was a statistically significant increase in species richness. Severity level had little variation on percentage of cover by plants. No statistically significant relationship between tree density and fire severity levels was found. These findings underline the need for fuel treatments in southwest Ponderosa Pine forests, and effective cooperation between communities, managers, and ecologists. The Schultz Fire serves as an example in understanding the intricacies of how history affects the present and future of fire management. How fire has been managed and portrayed in the past has left an indelible mark on how fire is presently viewed. Without a clear understanding of the history of fire management and the role of fire in the ecology, future policies towards fire will be unable to account for and manage for the diversity of ecosystems and fires effects on those ecosystems across the United States. / Graduation date: 2013

Schultz

Fire

Ecology

Forest

Coconino

Flagstaff

Arizona

Ponderosa

Pine

History

Suppression

Management