Abstract
Plant communities and species composing rupestrian grassland complexes within Brazilian savannas show varied responses to fire, and display similarities with other fire-prone ecosystems. Shallow, nutrient-poor soils subjected to severe water stress favor grasslands which carry fire in a landscape punctuated or crossed by rocky outcrops, riverine forests and other forest patches that act as barriers to fire. The long-term fire regime in these physiognomies is largely unknown, but, in post-European colonization times, the use of fire to livestock (cattle) pastures management and arson, most commonly in the dry season, have dominated the fire dynamics of these ecosystems. Several traits of rupestrian grassland plant species allow them to survive some fire regimes and/or take advantage of the post-burn environment, suggesting an ancient role of fire in their evolution and in defining agricultural practices. Fire management must consider the intrinsic heterogeneity and socioeconomic complexities of rupestrian grasslands landscapes. Evaluation and adaptation of strategies, ranging from protecting target areas from fire to applying prescribed patchy burning, and guaranteeing dialogue regarding people’s needs, practices and knowledge, like those related to cattle raising and everlasting flowers harvesting, must be assured for the accomplishment of biodiversity conservation and sustainability goals. Decision-makers are encouraged to work in partnership with ecologists, policy-makers, and local communities, in an adaptive management approach.
Like a giant version of an amoeboid creature, fire emits pseudopodia on vegetation and engulfs it, drawing its energy to incorporate into its igneous body, excreting ash, smoke, carbon dioxide, water vapor and other gases, leaving behind, in the form of charred wood, only the parts of its “food” that eventually could not digest. In this feeding process, fire takes on the characteristics of the vegetation that sustains it, the physical environment that receives it, the winds that propel it and the topography that leads it (Miranda 2002).
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References
Allen RB, Basher LR, Comrie J (1996) The use of fire for conservation management in New Zealand. N.Z. Dept of Conservation, Wellington
Almeida-Abreu PA (1995) O Supergrupo Espinhaço: o rifte, a bacia e o orógeno. Geonomos 3:1–18
Alves RJV, Silva NG (2011) O fogo é sempre um vilão nos campos rupestres? Biodiv Bras 2:120–127
Beale CM, van Rensberg S, Bond W, Coughenour M, Fynn R, Gaylard A, Grant R, Harris B, Jones T, Mduma S, Owen-Smith N, Sinclair ARE (2013) Ten lessons for the conservation of African savanna ecosystems. Biol Conserv 167:224–232
Bedê LC (2006) Alternativas para o uso sustentado de sempre-vivas: efeitos do manejo extrativista sobre Syngonanthus elegantulus Ruhland (Eriocaulaceae). Dissertation, Universidade Federal de Minas Gerais, Brasil
Behling H (1995) A high resolution Holocene pollen record from Lago do Pires, SE Brazil: vegetation, climate and fire history. J Paleolimnol 14:253–268
Behling H (1998) Late Quaternary vegetational and climatic changes in Brazil. Rev Palaeobot Palyno 99:143–156
Beisner BE, Haydon DT, Cuddington K (2003) Alternative stable states in ecology. Front Ecol Environ 1:376–382
Benites VM, Shaefer CEGR, Simas FNB, Santos HG (2007) Soils associated with rock outcrops in the Brazilian mountain ranges Mantiqueira and Espinhaço. Revista Brasil Bot 4:569–577
Berlinck CN, Ribeiro KT (2012) Pesquisa e manejo do fogo em áreas protegidas federais. In: Lima GS, Bontempo G, Almeida M, Gonçalves W (org.) Gestão, Pesquisa e Conservação em Áreas Protegidas. Viçosa, pp 119–136
Biggs R, Schlüter M, Biggs D, Bohensky EL, Silver SB, Cundill G, Dakos V, Daw TM, Evans LS, Kotschy K, Leitch AM, Meek C, Quinlan A, Raudsepp-Hearne C, Robards MD, Schoon ML, Schultz L, West PC (2012) Toward principles for enhancing the resilience of ecosystem services. Annu Rev Environ Resour 37:421–448
Bond WJ, Archibald S (2003) Confronting complexity: fire policy choices in South African savanna parks. Int J Wildland Fire 12:381–389
Bond WJ, Keeley JE (2005) Fire as a global ‘herbivore’: the ecology and evolution of flammable ecosystems. Trends Ecol Evol 20:387–394
Bond WJ, Midgley JJ (2001) Ecology of sprouting in woody plants: the persistence niche. Trends Ecol Evol 16:45–51
Bond WJ, Woodward FI, Midgley GF (2005) The global distribution of ecosystems in a world without fire. New Phytol 165:525–538
Bowman D (2003) Bushfires: a Darwinian perspective. In: Cary G, Lindemayer D, Dovers S (eds) Australia burning: fire ecology, management and policy issues. CSIRO Publishing, Melbourne, pp 3–14
Bradstock RA, Williams JE, Gill MA (2002) Flammable Australia: the fire regimes and biodiversity of a continent. Cambridge University Press, Cambridge
Brito JC (2011) Efeitos do fogo sobre a vegetação em duas áreas de campo rupestre na Chapada Diamantina, Bahia, Brasil. Dissertation, Universidade Estadual de Feira de Santana, Brasil
Brooks ML, D’Antonio CM, Richardson DM, Grace JB, Keeley JE, DiTomaso JM, Hobbs RJ, Pellant M, Pyke D (2004) Effects of invasive alien plants on fire regimes. Bioscience 54:677–688
Buhk C, Meyn A, Jentsch A (2006) The challenge of plant regeneration after fire in the Mediterranean Basin: scientific gaps in our knowledge on plant strategies and evolution of traits. Plant Ecol 192:1–19
Cawson J, Muir A (2008) Flora monitoring protocols for planned burning: a user’s guide. Victorian Government Dept. of Sustainability and Environment, Fire and Adaptive Management, Melbourne, Report No. 74
Clarke PJ (2002) Habitat islands in fire-prone vegetation: do landscape features influence community composition? J Biogeogr 29:677–684
Coelho FF, Capelo C, Neves ACO, Martins RP, Figueira JEC (2006) Seasonal Timing of Pseudoviviparous Reproduction of Leiothrix (Eriocaulaceae) Rupestrian Species in South-eastern Brazil. Ann Bot 98:1189–1195
Coelho FF, Capelo C, Ribeiro LC, Figueira JEC (2008) Reproductive modes in Leiothrix (Eriocaulaceae) in South-eastern Brazil: the role of microenvironmental heterogeneity. Ann Bot 101:353–360
Conceição AA, Orr BJ (2012) Post-fire flowering and fruiting in the caulescent rosette Vellozia sincorana, an endemic plant to the Northeast of Brazil. Acta Bot Brasil 26:94–100
Conceição AA, Pirani JR (2005) Delimitação de habitats em campos rupestres na Chapada Diamantina: substratos, composição florística e aspectos estruturais. Bol Bot Univ São Paulo 23:85–111
Conceição AA, Alencar TG, Souza JM, Moura ADC, Silva GA (2013) Massive post-fire flowering events in a tropical mountain region of Brazil: high episodic supply of floral resources. Acta Bot Brasil 27:847–850
Coutinho LM (1976) Contribuição ao conhecimento do papel ecológico das queimadas na floração de espécies do cerrado. Dissertation, Universidade de São Paulo, Brasil
Coutinho LM (1990) Fire in the ecology of Brazilian cerrado. In: Goldammer JG (ed) Fire in the tropical biota—ecosystem process and global challenges. Springer, Berlin, pp 82–105
Couto-Júnior AF, Souza VV, Carvalho-Junior, Martins ES, Santana OA, Freitas LF, Gomes RAT (2010) Integração de parâmetros morfométricos e imagem aster para delimitação das fitofisionomias da Serra da Canastra, Parque Nacional da Serra da Canastra, MG. Rev Bras Geom 11:57–68
Cundill G, Cumming GS, Biggs D (2012) Soft systems thinking and social learning for adaptive management. Conserv Biol 26:13–20
ELAT (2015) http://www.inpe.br/webelat/homepage/. Accessed 5 Aug 2015
Fariñas MR, Silva JF (2009) Fire in neotropical savannas. In: Tropical biology and conservation management—encyclopedia of life support systems (EOLSS), developed under the Auspices of the UNESCO, vol X. Eolss Publishers, Oxford
Federal Law 12.727 (2012) http://www.planalto.gov.br/ccivil_03/_ato2011-2014/2012/lei/L12727.htm. Accessed 29 Aug 2015
Ferreira GHC (2013) A regularização fundiária do Parque Nacional da Serra da Canastra e a expropriação camponesa: da baioneta à ponta da caneta. Dissertation, Universidade de São Paulo, Brasil
Fidelis A, Pivello VR (2011) Deve-se usar o fogo como instrumento de manejo no Cerrado e Campos Sulinos? Biodiv Bras 2:12–25
Figueira JEC (1998) Dinâmica de Populações de Paepalanthus polyanthus (Eriocaulaceae) na Serra do Cipó, MG. Dissertation, Universidade Estadual de Campinas, Brasil
Figueira JEC, Del Sarto ML (2007) Clonal growth and dispersal potential of Leiothrix flagellaris (Eriocaulaceae) in the rocky grasslands of Southeastern Brazil. Rev Brasil Bot 30:679–686
Figueiredo L (2014) Seasonal population dynamics and demography in Leiothrix spiralis (Eriocaulaceae). Dissertation, Université de Rennes, France
França H, Ribeiro KT (2008) Mapeamento de queimadas no Parque Nacional da Serra do Cipó e na Área de Proteção Ambiental Morro da Pedreira, MG: 1984–2007. Ministério do Meio Ambiente, Brasília, DF
França H, Ramos-Neto MB, Setzer A (2007) O Fogo no Parque Nacional das Emas. Ministério do Meio Ambiente, Série Biodiversidade, Brasília, DF
Frizzo TLM, Bonizário C, Borges MP, Vasconcelos HL (2011) Revisão dos efeitos do fogo sobre a fauna de formações savânicas do Brasil. Oecol Australis 15:365–379
Ghermandi L, Guthmann N, Bran D (2004) Early post-fire succession in northwestern Patagonia grasslands. J Veg Sci 15:67–76
Giulietti AM, Menezes NL, Pirani JR, Meguro M, Wanderley MGL (1987) Flora da Serra do Cipó, Minas Gerais: caracterização e lista de espécies. Bol Bot Univ São Paulo 9:1–151
Giulietti AM, Pirani JR, Harley RM (1997) Espinhaço range region, eastern Brazil. In: Davis SD, Heywood VH, Herrera-Macbryde O, Villa-Lobos J, Hamilton AC (eds) Centres of plant diversity. A guide and strategy for their conservation. Information Press, Oxford, pp 397–404
Giulietti AM, Harley RM, Queiroz LP, Wanderley MGL, van den Berg C (2005) Biodiversidade e conservação das plantas no Brasil. Megadiversidade 1:52–61
Gonçalves CN, Mesquita FW, Lima NRG, Coslope LA, Lintomen BS (2011) Recorrência dos incêndios e fitossociologia da vegetação em áreas com diferentes regimes de queima no Parque Nacional da Chapada Diamantina. Biodiv Bras 1:161–179
Grissino-Mayer HD (1999) Modeling fire interval data from the American southwest with the Weibull distribution. Int J Wildland Fire 9:37–50
Hoffmann WA, Adasme R, Haridasan M, de Carvalho MT, Geiger EL, Pereira MA, Gotsch SG, Franco AC (2009) Tree top-kill, not mortality, governs the dynamics of alternate stable states at savanna-forest boundaries under frequent fire in central Brazil. Ecology 90:1326–1337
Howe H (1994) Managing species diversity in tallgrass prairie: assumptions and implications. Conserv Biol 8:691–704
IBAMA (2005) Plano de manejo do Parque Nacional da Serra da Canastra. Ministério do Meio Ambiente, Brasília, DF
IBGE (2015) http://mapas.ibge.gov.br/pt/bases-e-referenciais/bases-cartograficas/. Accessed 6 Aug 2015
ICMBio (2009) Plano de manejo do Parque Nacional da Serra do Cipó. Área de Proteção Ambiental Morro da Pedreira. Instituto Chico Mendes de Biodiversidade/Ministério do Meio Ambiente, Brasília, DF
INPE (2015) http://www.inpe.br/queimadas/. Accessed 5 Aug 2015
Instituto Terra Brasilis (1999) Projeto sempre-vivas: subsídios para seu uso sustentado. Relatório Técnico, Instituto Terra Brasilis, Belo Horizonte
Jacobi CM, Carmo FF, Vincent RC, Stehmann JR (2007) Plant communities on ironstone outcrops: a diverse and endangered Brazilian ecosystem. Biodivers Conserv 16:2185–2200
Johansson M, Granström A, Malmer A (2013) Traditional fire management in the Ethiopian highlands—What would happen if it ends? Forest Facts 9 Sciences. http://www.slu.se/PageFiles/33707/2013/ForestFacts_09_2013.pdf. Accessed 4 Aug 2015
Keeley JE, Zedler PH (1978) Reproduction of chaparral shrubs after fire: a comparison of sprouting and seeding strategies. Amer Midl Nat 99:142–161
Keith DA, Martin TG, McDonald-Madden E, Walters C (2011) Uncertainty and adaptive management for biodiversity conservation. Biol Conserv 144:1175–1178
Klein C (2000) Geochemistry and petrology of some Proterozoic banded iron-formations of the Quadrilátero Ferrífero, Minas Gerais, Brazil. Econ Geol 95:405–428
Klink CA, Machado RB (2005) Conservation of the Brazilian Cerrado. Conserv Biol 19:707–713
Kolbek J, Alves RJV (2008) Impacts of cattle, fire and wind in rocky savannas, Southeastern Brazil. Acta Univ Carol Environ 22:111–130
Koproski L, Batista AC, Soares RV (2006) Impactos do fogo sobre serpentes (Squamata) no Parque Nacional de Ilha Grande (PR/MS), Brasil. Arq Ciên Vet Zool Unipar 9:129–133
Le Stradic S, Buison E, Fernandes GW (2013) Restoration of Neotropical grasslands degraded by quarrying using hay transfer. Appl Veg Sci 17:482–492
Lousada JM, Borba EL, Ribeiro KT (2011) Genetic structure and variability of the endemic and vulnerable Vellozia gigantea (Velloziaceae) associated with the landscape in the Espinhaço Range, in southeastern Brazil: implications for conservation. Genetica 139:431–440
Lucio SLB, Pereira LEC, Ludewigs T (2014) O gado que circulava: desafios da gestão participativa de unidades de conservação nos gerais do norte de Minas. Biodiv Bras 1:130–156
Lyon LJ, Huff MH, Telfer ES, Schreiner DS, Smith JK (2000) Fire effects on animal populations. In: Smith JK (ed) Wildland fire in ecosystems: Effects of fire on Fauna Gen. Tech. Rep. RMRS-GTR 42-vol 1. US Department of Agriculture Forest Service Rocky Mountain Research Station, Ogden, UT, pp 25–34
Mabunda D, Pienaar DJ, Verhoef J (2003) The Krueger National Park: a century of management and research. In: du Toit J, Biggs H, Rogers K (eds) The Krueger experience: ecology and management of savanna heterogeneity. Island Press, Washington, pp 3–21
Manning J (2007) Field guide to fynbos. Struik Publishers, Cape Town
Medeiros MB, Miranda HS (2008) Post-fire resprouting and mortality in Cerrado wood plant species. Edinb J Bot 65:1–16
Mesquita FW, Lima NRG, Gonçalves CN, Berlinck CN, Lintomen BS (2011) Histórico dos incêndios na vegetação do Parque Nacional da Chapada Diamantina, entre 1973 e abril de 2010, com base em imagens Landsat. Biodiv Bras 1:237–256
Miranda CAK (2002) Paepalanthus polyanthus (Bong.) Kunth (Eriocaulaceae) como bioindicadora de biomassa vegetal aérea nos campos rupestres da Serra do Cipó. Dissertation, Universidade Federal de Minas Gerais, Brasil
Mistry J, Berardi A (2005) Assessing fire potential in a Brazilian savanna nature reserve. Biotropica 37:439–451
Mistry J, Berardi A (2006) Introduction. In: Mistry J, Berardi A (eds) Savannas and dry forests: linking people with nature. Aldershot, England, pp 1–18
Mistry J, Bizerril M (2011) Why it is important to understand the relationship between people, fire and protected areas. Biodiv Bras 2:40–49
Mistry J, Berardi A, Andrade V, Krahô T, Krahô P, Leonardos O (2005) Indigenous fire management in the Cerrado of Brazil: the case of the Krahô of Tocantíns. Hum Ecol 33:365–386
MMA (2011) Plano de Ação para prevenção e controle do desmatamento e das queimadas: Cerrado. Ministério do Meio Ambiente, Brasília, DF
Morcatty TQ, El Bizri HR, Carneiro HCS, Biasizzo RL, Alméri CRO, Silva ES, Rodrigues FHG, Figueira JEC (2013) Habitat loss and mammalian extinction patterns: are the reserves in the Quadrilátero Ferrífero, southeastern Brazil, effective in conserving mammals? Ecol Res 28:935–947
Myers R (2006) Living with fire. Sustaining ecosystems & livelihoods through integrated fire management. The global fire initiative. The Nature Conservancy, Tallahassee
Negreiros D, Le Stradic S, Fernandes GW, Rennó HC (2014) CSR analysis of plant functional types in highly diverse tropical grasslands of harsh environments. Plant Ecol 215:379–388
Neves ACO, Bedê LC, Martins RP (2011) Revisão sobre os efeitos do fogo em Eriocaulaceae como subsídio para a sua conservação. Biodiv Bras 2:50–66
Neves ACO (2012) História de vida e efeitos do fogo em espécies de Leiothrix (Eriocaulaceae) com diferentes estratégias de propagação na Serra do Cipó, MG. Dissertation, Universidade Federal de Minas Gerais, Brasil
Neves ACO, Nogueira FB, Assis LR, Paglia AP, Bedê LC, Martins RP (2014) Reproductive allocation in rhizomatous, seminiferous, and pseudoviviparous Leiothrix (Eriocaulaceae) species. Plant Ecol 215:987–996
Neves SPS, Conceição AA (2010) Campos rupestres recém-queimados na Chapada Diamantina, Bahia: plantas de rebrota e sementes, com espécies endêmicas na rocha. Acta Bot Brasil 24:697–707
Noble IR, Slatyer RO (1980) The use of vital attributes to predict successional changes in plant communities subject to recurrent disturbances. Vegetatio 43:5–21
Ojeda F, Brun FG, Vergara JJ (2005) Fire, rain and the selection of seeder and resprouter life-histories in fire-recruiting, woody plants. New Phytol 168:155–165
Oliveira VB (2004) Inventário das espécies de mamíferos de médio e grande porte presentes no Parque Nacional da Serra do Cipó, Minas Gerais. Dissertation, Pontifícia Universidade Católica de Minas Gerais, Brasil
Oliveras I, Meirelles ST, Hirakuri VL, Freitas CR, Miranda HS, Pivello VR (2012) Effects of fire regimes on herbaceous biomass and nutrient dynamics in the Brazilian savannah. Int J Wildland Fire 22:368–380
Oriani A, Scatena VL, Sano PT (2008) Morphological architecture of Actinocephalus (Koern.) Sano (Eriocaulaceae-Poales). Flora 203:341–349
Parr CL, Woinarski JCZ, Pienaar DJ (2009) Cornerstones of biodiversity conservation? Comparing the management effectiveness of Kruger and Kakadu National Parks, two key savanna reserves. Biodivers Conserv 18:3643–3662
Parra LR, Giulietti AM, Andrade MJG, van den Berg C (2010) Reestablishment and new circumscription of Comanthera (Eriocaulaceae). Taxon 59:1135–1146
Pausas JG, Keeley JE (2009) A burning story: the role of fire in the history of life. Bioscience 59:593–601
Penman TD, Christie FJ, Andersen AN, Bradstock RA, Cary GJ, Henderson MK, Price O, Tran C, Wardle GM, Williams RJ, York A (2011) Prescribed burning: how can it work to conserve the things we value? Int J Wildl Fire 20:721–733
Phillips JFV (1930) Fire: its influence on biotic communities and physical factors in South and East Africa. S Afr J Sci 27:352–367
Pignatti E, Pignatti S, Lucchese F (1993) Plant communities of Stirling Range, Western Australia. J Veg Sci 4:477–488
Prous A (1992) Arqueologia Brasileira. Editora da Universidade de Brasília, Brasília
Ramos-Neto MB, Pivello VR (2000) Lightning fires in a Brazilian savanna national park: rethinking management strategies. Environ Manage 26:675–684
Ribeiro MC, Figueira JEC (2011) Uma abordagem histórica do fogo no Parque Nacional da Serra do Cipó, Minas Gerais, Brasil. Biodiv Bras 2:212–227
Rizzini CT (1992) Tratado de Fitogeografia do Brasil: Aspectos Ecológicos e Florísticos. Âmbito Cultural Edições, São Paulo
Rosière CA, Chemale F Jr (2000) Brazilian iron formations and their geological setting. Rev Bras Geoc 30:274–278
Rossi RD, Martins CR, Viana PL, Rodrigues EL, Figueira JEC (2014) Impact of invasion by molasses grass (Melinis minutiflora P. Beauv.) on native species and on fires in areas of campo-cerrado in Brazil. Acta Bot Brasil 28:631–637
Santos PR, Silvério ACM, Pereira G, Rocha LC, Cardozo FS (2014) Analysis of fires incidence in South America for the period between 2000 and 2012. Rev Elet Geog Territ Terram 2:101–112
Schmidt IB, Figueiredo IB, Scariot A (2007) Ethnobotany and effects of harvesting on the population ecology of Syngonanthus nitens (Bong.) Ruhland (Eriocaulaceae), a NTFP from Jalapão Region. Central Brazil. Econ Bot 61:73–85
Schmidt IB, Sampaio MB, Figueiredo IB, Ticktin T (2011) Fogo e artesanato de capim-dourado no Jalapão - usos tradicionais e consequências ecológicas. Biodiv Bras 2:67–85
Silva JA, Machado RB, Azevedo AR, Drumond GM, Fonseca RL, Goulart MF, Moraes EA Jr, Martins CS, Ramos Neto MB (2008) Identificação de áreas insubstituíveis para conservação da Cadeia do Espinhaço, estados de Minas Gerais e Bahia, Brasil. Megadiversidade 4:272–309
Silveira L, Jácomo ATA, Diniz-Filho JAF, Rodrigues FH (1999) Impact of wildfires on the megafauna of Emas National Park, central Brazil. Oryx 33:108–114
Silveira FAO, Negreiros D, Barbosa NPU, Buisson E, Carmo FF, Carstensen DW, Conceição AA, Cornelissen TG, Echternacht L, Fernandes GW, Garcia QS, Guerra TJ, Jacobi CM, Lemos-Filho JP, Le Stradic S, Morellato LPC, Neves FS, Oliveira RS, Schaefer CE, Viana PL, Lambers H (2016) Ecology and evolution of plant diversity in the endangered campo rupestre: a neglected conservation priority. Plant Soil 1–24
Simon MF, Grether R, Queiroz LP, Skema C, Pennington RT, Hughes CE (2009) Recent assembly of the Cerrado, a neotropical plant diversity hotspot, by in situ evolution of adaptations of fire. Proc Natl Acad Sci USA 48:20359–20364
Souza JM (2011) Efeitos do fogo na fenologia reprodutiva de angiospermas em vegetações campestres na Chapada Diamantina, Brasil. Dissertation, Universidade Estadual de Feira de Santana, Brasil
Trauernicht C, Brook BW, Murphy BP, Williamson GJ, Bowman DM (2015) Local and global pyrogeographic evidence that indigenous fire management creates pyrodiversity. Ecol Evol 5:1908–1918
Valeriano MM, Rossetti DF (2012) Topodata: Brazilian full coverage refinement of SRTM data. Appl Geogr 32:300–309
Van Wilgen BW (2013) Fire management in species rich Cape Fynbos shrublands. Front Ecol Environ 11:35–44
Van Wilgen BW, Biggs HC, Potgieter ALF (1998) Fire management and research in the Kruger National Park, with suggestions on the detection of thresholds of potential concern. Koedoe 41:1–33
Van Wilgen BW, Govender N, Forsyth GG, Kraaij T (2011) Towards adaptive fire management for biodiversity conservation: experience in South African national parks. Koedoe 53:1–9
Vasconcelos MF (2011) O que são campos rupestres e campos de altitude nos topos de montanha no leste do Brasil? Rev Bras Bot 34:241–246
Veldman JW, Buisson E, Durigan G, Fernandes GW, Le Stradic S, Mahy G, Negreiros D, Overbeck GE, Veldman RG, Zaloumis NP, Putz FE, Bond WJ (2015) Toward an old-growth concept for grasslands, savannas, and woodlands. Front Ecol Environ 13:154–162
Viana PL, Lombardi J (2007) Florística e caracterização dos campos rupestres sobre canga na Serra da Calçada, Minas Gerais, Brasil. Rodriguesia 58:159–177
Vilela RA, Melo RJ, Costa TAV, Lagoeiro LE, Varajão CAC (2004) Petrografia do minério hematita compacta da Mina do Tamanduá (Quadrilátero Ferrífero, MG). Rev Esc Minas 57:157–164
Vitta FA (2002) Diversidade e conservação da flora dos campos rupestres da Cadeia do Espinhaço em Minas Gerais. In: Araújo EL, Moura AN, Sampaio EVSB, Gestinári LMS, Carneiro JMT (eds) Biodiversidade, Conservação e Uso Sustentável da Flora do Brasil. Imprensa Universitária, Recife, UFRPE, pp 90–94
Whelan RJ (1995) The ecology of fire. Cambridge University Press, Cambridge
Whelan RJ (2004) Adaptive management: what does it mean and how ca it be used in fire management? In: Halse S (ed) Bushfire: managing the risk. New South Wales Nature Conservation Council, Sydney, pp 1–19
Acknowledgements
We gratefully acknowledge Dr. Robert Whelan for inspiration, constructive comments and very useful suggestions on this chapter. We thank CAPES, CNPq, FAPEMIG, FAPESP, FAPESB, and FUNDAÇÃO O BOTICÁRIO for several types of financial support to the authors, that include scholarships and grants, and Erik Wild for revising the English version of this chapter.
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Figueira, J.E.C. et al. (2016). Fire in Rupestrian Grasslands: Plant Response and Management. In: Fernandes, G. (eds) Ecology and Conservation of Mountaintop grasslands in Brazil. Springer, Cham. https://doi.org/10.1007/978-3-319-29808-5_18
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