Estudo de relaÃÃes ecolÃgicas em planÃcies hipersalinas (apicum) do estado do CearÃ

Raiana Lira Cabral

Estudo de relaÃÃes ecolÃgicas em planÃcies hipersalinas (apicum) do estado do CearÃ

Detalhes bibliográficos
Autor(a) principal:	Raiana Lira Cabral
Data de Publicação:	2015
Tipo de documento:	Tese
Idioma:	por
Título da fonte:	Biblioteca Digital de Teses e Dissertações da UFC
Texto Completo:	http://www.teses.ufc.br/tde_busca/arquivo.php?codArquivo=16371
Resumo:	This study investigates ecological process and dynamic of the hypersaline tidal flats (HTF, locally knowns as âapicumâ). The HTF systems are characterized by flat landscape and hypersaline soil conditions that may occour in arid and semiarid regions of the world. Usually HTF can be found inside mangrove forest or as a transitional system between mangrove and dry land ecosystem. These areas are highly important for advances of mangrove forest in case of sea level increase. Besides, HTF have great economic value, as prioritarian areas to install aquaculture or saline ponds. Also it represents security zones for traditional populations, as artisanal fishermen. However, the ecological process which drives the HTFs systems remain poorly knew. The studies presented in this doctoral dissertation aim to fulfill some lacks of knowledge about ecological process that could drive the HTF dynamic. The chapter 1 is a bibliographical review about this system. On chapter 2 were evaluated possibles mechanisms used by plants in order to improve their survival in such stressed environment through the study of rhizosphere soils and comparison with bulk soils. On chapter 3, through an experimental study in the field, the possible effect of two crab species bioturbation on HTFs soils and it possible effects on soil properties were evaluated. The chapter 4 registered the evaluation of ecological interactions among biotic and abiotic fractions of the system using ecological modeling tools. In this sense, a structural ecological model was designed using microrelief elevation, soil properties, two plant species biomass and the covering areas of two crab species. Based on results obtained in these studies, it was possible to conclude that HTFs have a particular ecological dynamic and have close relation with mangrove forests due the nutrients, material and animal population flux shared by them. The plant community of HTFs areas is componed mainly by pioneersâ clonal halophytes species. These species seemed to have different strategies to deal with saline stress, an important limitant factor for their growing and distribution. The seasonal effects were noteworthy mainly in bulk soils. In this sense, it is possible that plant estabilize the environment in their benefit. The crabs were able to affect biogeochemical dynamic in HTF soils. However, the burrouing effects of crab species on soil properties were different and seemed reflect the species habit. Although bioturbation effects were important, the modifications on HTF soil properties were less evident than in mangrove forests. Environmental process related to salinity and nutrients availability are among the main factors to drive crabs distribution and plant growth in HTFs. These processes were dependent of microrelief variation. A combination of abiotic factors (microrelief elevation and soil properties) and positive relations among plant species seems to guide the ecological dynamics in HTFs systems. Conservation strategies of coastal environments areas must include the HTF protection due their importance for coastal environments on climate change scenario and economic importance, but mainly because their unique ecological characteristics.

Metadados do item

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network_acronym_str	UFC
network_name_str	Biblioteca Digital de Teses e Dissertações da UFC
spelling	info:eu-repo/semantics/publishedVersioninfo:eu-repo/semantics/doctoralThesisEstudo de relaÃÃes ecolÃgicas em planÃcies hipersalinas (apicum) do estado do CearÃEcologica relations in hypersaline tidal flats (apicum): a study based in CearÃ state estuaries2015-12-14Tiago OsÃrio Ferreira27797296863http://lattes.cnpq.br/7979209848071504XosÃ Luis Otero PerezCarla Ferreira Rezende08849789742http://lattes.cnpq.br/6413382716876721 Claudivan Feitosa de Lacerda38810948300http://lattes.cnpq.br/4576414337840820AntÃnio Jeovah de Andrade Meireles31666230359http://lattes.cnpq.br/243189394784186305935640490http://lattes.cnpq.br/8089568699434733Raiana Lira CabralUniversidade Federal do CearÃPrograma de PÃs-GraduaÃÃo em Ecologia e Recursos NaturaisUFCBRPlanÃcies hipersalinas costeirasÃreas Ãmidas costeirasRizosferaBioturbaÃÃoSolos salinosFacilitaÃÃoModelagem ecolÃgicaHypersaline tidal flatsCoastal wetlandsRhizosphereBioturbationSoil salinityFacilitationEcological modelingECOLOGIAThis study investigates ecological process and dynamic of the hypersaline tidal flats (HTF, locally knowns as âapicumâ). The HTF systems are characterized by flat landscape and hypersaline soil conditions that may occour in arid and semiarid regions of the world. Usually HTF can be found inside mangrove forest or as a transitional system between mangrove and dry land ecosystem. These areas are highly important for advances of mangrove forest in case of sea level increase. Besides, HTF have great economic value, as prioritarian areas to install aquaculture or saline ponds. Also it represents security zones for traditional populations, as artisanal fishermen. However, the ecological process which drives the HTFs systems remain poorly knew. The studies presented in this doctoral dissertation aim to fulfill some lacks of knowledge about ecological process that could drive the HTF dynamic. The chapter 1 is a bibliographical review about this system. On chapter 2 were evaluated possibles mechanisms used by plants in order to improve their survival in such stressed environment through the study of rhizosphere soils and comparison with bulk soils. On chapter 3, through an experimental study in the field, the possible effect of two crab species bioturbation on HTFs soils and it possible effects on soil properties were evaluated. The chapter 4 registered the evaluation of ecological interactions among biotic and abiotic fractions of the system using ecological modeling tools. In this sense, a structural ecological model was designed using microrelief elevation, soil properties, two plant species biomass and the covering areas of two crab species. Based on results obtained in these studies, it was possible to conclude that HTFs have a particular ecological dynamic and have close relation with mangrove forests due the nutrients, material and animal population flux shared by them. The plant community of HTFs areas is componed mainly by pioneersâ clonal halophytes species. These species seemed to have different strategies to deal with saline stress, an important limitant factor for their growing and distribution. The seasonal effects were noteworthy mainly in bulk soils. In this sense, it is possible that plant estabilize the environment in their benefit. The crabs were able to affect biogeochemical dynamic in HTF soils. However, the burrouing effects of crab species on soil properties were different and seemed reflect the species habit. Although bioturbation effects were important, the modifications on HTF soil properties were less evident than in mangrove forests. Environmental process related to salinity and nutrients availability are among the main factors to drive crabs distribution and plant growth in HTFs. These processes were dependent of microrelief variation. A combination of abiotic factors (microrelief elevation and soil properties) and positive relations among plant species seems to guide the ecological dynamics in HTFs systems. Conservation strategies of coastal environments areas must include the HTF protection due their importance for coastal environments on climate change scenario and economic importance, but mainly because their unique ecological characteristics.Esse estudo teve como objetivo geral investigar processos ecolÃgicos e a dinÃmica do apicum. Esses sistemas se caracterizam por serem planÃcies hipersalinas que ocorrem em zonas costeiras de regiÃes Ãridas onde podem ser identificadas dentro de bosques de mangue ou entre o manguezal e ecossistemas de terra seca, como mata seca ou restinga. Os apicuns sÃo Ãreas estratÃgicas para recuo das florestas de mangue em caso de aumento do nÃvel do mar. AlÃm disso, possuem grande importÃncia econÃmica, visto que sÃo Ãreas preferenciais para instalaÃÃo de empreendimentos de aquicultura e salinas e por que representam zonas de seguranÃa para populaÃÃes tradicionais. Entretanto, muito pouco se sabe sobre os processos ecolÃgicos que regulam a dinÃmica do sistema. Os estudos compilados nessa tese visam de algum modo suprir lacunas sobre os processos ecolÃgicos que regem a dinÃmica desse sistema. O capÃtulo 1 traz uma ampla revisÃo bibliogrÃfica sobre esse sistema. No capÃtulo 2 foram avaliados possÃveis mecanismos utilizados pelas plantas para sobreviverem ao ambiente limitante atravÃs do estudo dos solos rizosfÃricos e comparaÃÃo com solos nÃo colonizados por plantas. No capÃtulo 3, atravÃs de um estudo experimental de campo foram avaliados os efeitos da bioturbaÃÃo de duas espÃcies de caranguejos nos solos de apicum e seus possÃveis efeitos sobre as condiÃÃes edÃficas. O capÃtulo 4 aprofunda-se na avaliaÃÃo das interaÃÃes ecolÃgicas que ocorrem entre o solo, microrelevo e a biota do sistema (plantas e animais). Nesse sentido, um modelo ecolÃgico estrutural foi construÃdo utilizando variaÃÃes na elevaÃÃo do relevo, propriedades do solo, biomassa das plantas e Ãrea de cobertura de caranguejos. Com base nos resultados, concluiu-se que o sistema apicum possui dinÃmica ecolÃgica muito prÃpria e possui uma relaÃÃo com os bosques de mangue graÃas ao compartilhamento de fluxos de matÃria, nutrientes e populaÃÃes de animais. A comunidade de plantas do apicum Ã composta, sobretudo por espÃcies clonais halÃfitas pioneiras e que parecem possuir estratÃgias diferenciadas para lidar com o estresse salino, fator limitante do seu crescimento e distribuiÃÃo. O efeito da sazonalidade Ã notÃvel, sobretudo nas Ãreas nÃo colonizadas por plantas, indicando que possivelmente as plantas estabilizam o sistema solo em seu beneficio. Diferentes espÃcies de caranguejos sÃo capazes de afetar a dinÃmica biogeoquÃmica do solo. A bioturbaÃÃo do solo pelas espÃcies estudadas provocou diferentes efeitos nas propriedades do solo, os quais parecem estar intimamente ligados as hÃbitos das espÃcies. Entretanto, as seus efeitos nos apicuns, embora importantes, sÃo menos intensos que em Ãreas de manguezais. Processos ambientais ligados Ã salinidade do solo e Ã disponibilidade de nutrientes estÃo entre os principais fatores que regem a distribuiÃÃo de caranguejos e crescimento das plantas nos apicuns. Esses processos sÃo intimamente dependentes das variaÃÃes do microrelevo. Uma combinaÃÃo entre fatores abiÃticos (elevaÃÃo do relevo e propiedades do solo) e relaÃÃes positivas entre espÃcies de plantas parecem se os princiapis agentes na dinÃmica ecolÃgica dos apicuns. EstratÃgias de conservaÃÃo de sistemas costeiros devem incluir a proteÃÃo dos apicuns visto seu importante papel ecolÃgico no cenÃrio de mudanÃas climÃticas e importÃncia para economia local, sobretudo por conta suas caracterÃsticas ecolÃgicas Ãnicas.CoordenaÃÃo de AperfeÃoamento de Pessoal de NÃvel Superior http://www.teses.ufc.br/tde_busca/arquivo.php?codArquivo=16371application/pdfinfo:eu-repo/semantics/openAccessporreponame:Biblioteca Digital de Teses e Dissertações da UFCinstname:Universidade Federal do Cearáinstacron:UFC2019-01-21T11:29:46Zmail@mail.com -
dc.title.pt.fl_str_mv	Estudo de relaÃÃes ecolÃgicas em planÃcies hipersalinas (apicum) do estado do CearÃ
dc.title.alternative.en.fl_str_mv	Ecologica relations in hypersaline tidal flats (apicum): a study based in CearÃ state estuaries
title	Estudo de relaÃÃes ecolÃgicas em planÃcies hipersalinas (apicum) do estado do CearÃ
spellingShingle	Estudo de relaÃÃes ecolÃgicas em planÃcies hipersalinas (apicum) do estado do CearÃ Raiana Lira Cabral PlanÃcies hipersalinas costeiras Ãreas Ãmidas costeiras Rizosfera BioturbaÃÃo Solos salinos FacilitaÃÃo Modelagem ecolÃgica Hypersaline tidal flats Coastal wetlands Rhizosphere Bioturbation Soil salinity Facilitation Ecological modeling ECOLOGIA
title_short	Estudo de relaÃÃes ecolÃgicas em planÃcies hipersalinas (apicum) do estado do CearÃ
title_full	Estudo de relaÃÃes ecolÃgicas em planÃcies hipersalinas (apicum) do estado do CearÃ
title_fullStr	Estudo de relaÃÃes ecolÃgicas em planÃcies hipersalinas (apicum) do estado do CearÃ
title_full_unstemmed	Estudo de relaÃÃes ecolÃgicas em planÃcies hipersalinas (apicum) do estado do CearÃ
title_sort	Estudo de relaÃÃes ecolÃgicas em planÃcies hipersalinas (apicum) do estado do CearÃ
author	Raiana Lira Cabral
author_facet	Raiana Lira Cabral
author_role	author
dc.contributor.advisor1.fl_str_mv	Tiago OsÃrio Ferreira
dc.contributor.advisor1ID.fl_str_mv	27797296863
dc.contributor.advisor1Lattes.fl_str_mv	http://lattes.cnpq.br/7979209848071504
dc.contributor.referee1.fl_str_mv	XosÃ Luis Otero Perez
dc.contributor.referee2.fl_str_mv	Carla Ferreira Rezende
dc.contributor.referee2ID.fl_str_mv	08849789742
dc.contributor.referee2Lattes.fl_str_mv	http://lattes.cnpq.br/6413382716876721
dc.contributor.referee3.fl_str_mv	Claudivan Feitosa de Lacerda
dc.contributor.referee3ID.fl_str_mv	38810948300
dc.contributor.referee3Lattes.fl_str_mv	http://lattes.cnpq.br/4576414337840820
dc.contributor.referee4.fl_str_mv	AntÃnio Jeovah de Andrade Meireles
dc.contributor.referee4ID.fl_str_mv	31666230359
dc.contributor.referee4Lattes.fl_str_mv	http://lattes.cnpq.br/2431893947841863
dc.contributor.authorID.fl_str_mv	05935640490
dc.contributor.authorLattes.fl_str_mv	http://lattes.cnpq.br/8089568699434733
dc.contributor.author.fl_str_mv	Raiana Lira Cabral
contributor_str_mv	Tiago OsÃrio Ferreira XosÃ Luis Otero Perez Carla Ferreira Rezende Claudivan Feitosa de Lacerda AntÃnio Jeovah de Andrade Meireles
dc.subject.por.fl_str_mv	PlanÃcies hipersalinas costeiras Ãreas Ãmidas costeiras Rizosfera BioturbaÃÃo Solos salinos FacilitaÃÃo Modelagem ecolÃgica
topic	PlanÃcies hipersalinas costeiras Ãreas Ãmidas costeiras Rizosfera BioturbaÃÃo Solos salinos FacilitaÃÃo Modelagem ecolÃgica Hypersaline tidal flats Coastal wetlands Rhizosphere Bioturbation Soil salinity Facilitation Ecological modeling ECOLOGIA
dc.subject.eng.fl_str_mv	Hypersaline tidal flats Coastal wetlands Rhizosphere Bioturbation Soil salinity Facilitation Ecological modeling
dc.subject.cnpq.fl_str_mv	ECOLOGIA
dc.description.sponsorship.fl_txt_mv	CoordenaÃÃo de AperfeÃoamento de Pessoal de NÃvel Superior
dc.description.abstract.por.fl_txt_mv	This study investigates ecological process and dynamic of the hypersaline tidal flats (HTF, locally knowns as âapicumâ). The HTF systems are characterized by flat landscape and hypersaline soil conditions that may occour in arid and semiarid regions of the world. Usually HTF can be found inside mangrove forest or as a transitional system between mangrove and dry land ecosystem. These areas are highly important for advances of mangrove forest in case of sea level increase. Besides, HTF have great economic value, as prioritarian areas to install aquaculture or saline ponds. Also it represents security zones for traditional populations, as artisanal fishermen. However, the ecological process which drives the HTFs systems remain poorly knew. The studies presented in this doctoral dissertation aim to fulfill some lacks of knowledge about ecological process that could drive the HTF dynamic. The chapter 1 is a bibliographical review about this system. On chapter 2 were evaluated possibles mechanisms used by plants in order to improve their survival in such stressed environment through the study of rhizosphere soils and comparison with bulk soils. On chapter 3, through an experimental study in the field, the possible effect of two crab species bioturbation on HTFs soils and it possible effects on soil properties were evaluated. The chapter 4 registered the evaluation of ecological interactions among biotic and abiotic fractions of the system using ecological modeling tools. In this sense, a structural ecological model was designed using microrelief elevation, soil properties, two plant species biomass and the covering areas of two crab species. Based on results obtained in these studies, it was possible to conclude that HTFs have a particular ecological dynamic and have close relation with mangrove forests due the nutrients, material and animal population flux shared by them. The plant community of HTFs areas is componed mainly by pioneersâ clonal halophytes species. These species seemed to have different strategies to deal with saline stress, an important limitant factor for their growing and distribution. The seasonal effects were noteworthy mainly in bulk soils. In this sense, it is possible that plant estabilize the environment in their benefit. The crabs were able to affect biogeochemical dynamic in HTF soils. However, the burrouing effects of crab species on soil properties were different and seemed reflect the species habit. Although bioturbation effects were important, the modifications on HTF soil properties were less evident than in mangrove forests. Environmental process related to salinity and nutrients availability are among the main factors to drive crabs distribution and plant growth in HTFs. These processes were dependent of microrelief variation. A combination of abiotic factors (microrelief elevation and soil properties) and positive relations among plant species seems to guide the ecological dynamics in HTFs systems. Conservation strategies of coastal environments areas must include the HTF protection due their importance for coastal environments on climate change scenario and economic importance, but mainly because their unique ecological characteristics. Esse estudo teve como objetivo geral investigar processos ecolÃgicos e a dinÃmica do apicum. Esses sistemas se caracterizam por serem planÃcies hipersalinas que ocorrem em zonas costeiras de regiÃes Ãridas onde podem ser identificadas dentro de bosques de mangue ou entre o manguezal e ecossistemas de terra seca, como mata seca ou restinga. Os apicuns sÃo Ãreas estratÃgicas para recuo das florestas de mangue em caso de aumento do nÃvel do mar. AlÃm disso, possuem grande importÃncia econÃmica, visto que sÃo Ãreas preferenciais para instalaÃÃo de empreendimentos de aquicultura e salinas e por que representam zonas de seguranÃa para populaÃÃes tradicionais. Entretanto, muito pouco se sabe sobre os processos ecolÃgicos que regulam a dinÃmica do sistema. Os estudos compilados nessa tese visam de algum modo suprir lacunas sobre os processos ecolÃgicos que regem a dinÃmica desse sistema. O capÃtulo 1 traz uma ampla revisÃo bibliogrÃfica sobre esse sistema. No capÃtulo 2 foram avaliados possÃveis mecanismos utilizados pelas plantas para sobreviverem ao ambiente limitante atravÃs do estudo dos solos rizosfÃricos e comparaÃÃo com solos nÃo colonizados por plantas. No capÃtulo 3, atravÃs de um estudo experimental de campo foram avaliados os efeitos da bioturbaÃÃo de duas espÃcies de caranguejos nos solos de apicum e seus possÃveis efeitos sobre as condiÃÃes edÃficas. O capÃtulo 4 aprofunda-se na avaliaÃÃo das interaÃÃes ecolÃgicas que ocorrem entre o solo, microrelevo e a biota do sistema (plantas e animais). Nesse sentido, um modelo ecolÃgico estrutural foi construÃdo utilizando variaÃÃes na elevaÃÃo do relevo, propriedades do solo, biomassa das plantas e Ãrea de cobertura de caranguejos. Com base nos resultados, concluiu-se que o sistema apicum possui dinÃmica ecolÃgica muito prÃpria e possui uma relaÃÃo com os bosques de mangue graÃas ao compartilhamento de fluxos de matÃria, nutrientes e populaÃÃes de animais. A comunidade de plantas do apicum Ã composta, sobretudo por espÃcies clonais halÃfitas pioneiras e que parecem possuir estratÃgias diferenciadas para lidar com o estresse salino, fator limitante do seu crescimento e distribuiÃÃo. O efeito da sazonalidade Ã notÃvel, sobretudo nas Ãreas nÃo colonizadas por plantas, indicando que possivelmente as plantas estabilizam o sistema solo em seu beneficio. Diferentes espÃcies de caranguejos sÃo capazes de afetar a dinÃmica biogeoquÃmica do solo. A bioturbaÃÃo do solo pelas espÃcies estudadas provocou diferentes efeitos nas propriedades do solo, os quais parecem estar intimamente ligados as hÃbitos das espÃcies. Entretanto, as seus efeitos nos apicuns, embora importantes, sÃo menos intensos que em Ãreas de manguezais. Processos ambientais ligados Ã salinidade do solo e Ã disponibilidade de nutrientes estÃo entre os principais fatores que regem a distribuiÃÃo de caranguejos e crescimento das plantas nos apicuns. Esses processos sÃo intimamente dependentes das variaÃÃes do microrelevo. Uma combinaÃÃo entre fatores abiÃticos (elevaÃÃo do relevo e propiedades do solo) e relaÃÃes positivas entre espÃcies de plantas parecem se os princiapis agentes na dinÃmica ecolÃgica dos apicuns. EstratÃgias de conservaÃÃo de sistemas costeiros devem incluir a proteÃÃo dos apicuns visto seu importante papel ecolÃgico no cenÃrio de mudanÃas climÃticas e importÃncia para economia local, sobretudo por conta suas caracterÃsticas ecolÃgicas Ãnicas.
description	This study investigates ecological process and dynamic of the hypersaline tidal flats (HTF, locally knowns as âapicumâ). The HTF systems are characterized by flat landscape and hypersaline soil conditions that may occour in arid and semiarid regions of the world. Usually HTF can be found inside mangrove forest or as a transitional system between mangrove and dry land ecosystem. These areas are highly important for advances of mangrove forest in case of sea level increase. Besides, HTF have great economic value, as prioritarian areas to install aquaculture or saline ponds. Also it represents security zones for traditional populations, as artisanal fishermen. However, the ecological process which drives the HTFs systems remain poorly knew. The studies presented in this doctoral dissertation aim to fulfill some lacks of knowledge about ecological process that could drive the HTF dynamic. The chapter 1 is a bibliographical review about this system. On chapter 2 were evaluated possibles mechanisms used by plants in order to improve their survival in such stressed environment through the study of rhizosphere soils and comparison with bulk soils. On chapter 3, through an experimental study in the field, the possible effect of two crab species bioturbation on HTFs soils and it possible effects on soil properties were evaluated. The chapter 4 registered the evaluation of ecological interactions among biotic and abiotic fractions of the system using ecological modeling tools. In this sense, a structural ecological model was designed using microrelief elevation, soil properties, two plant species biomass and the covering areas of two crab species. Based on results obtained in these studies, it was possible to conclude that HTFs have a particular ecological dynamic and have close relation with mangrove forests due the nutrients, material and animal population flux shared by them. The plant community of HTFs areas is componed mainly by pioneersâ clonal halophytes species. These species seemed to have different strategies to deal with saline stress, an important limitant factor for their growing and distribution. The seasonal effects were noteworthy mainly in bulk soils. In this sense, it is possible that plant estabilize the environment in their benefit. The crabs were able to affect biogeochemical dynamic in HTF soils. However, the burrouing effects of crab species on soil properties were different and seemed reflect the species habit. Although bioturbation effects were important, the modifications on HTF soil properties were less evident than in mangrove forests. Environmental process related to salinity and nutrients availability are among the main factors to drive crabs distribution and plant growth in HTFs. These processes were dependent of microrelief variation. A combination of abiotic factors (microrelief elevation and soil properties) and positive relations among plant species seems to guide the ecological dynamics in HTFs systems. Conservation strategies of coastal environments areas must include the HTF protection due their importance for coastal environments on climate change scenario and economic importance, but mainly because their unique ecological characteristics.
publishDate	2015
dc.date.issued.fl_str_mv	2015-12-14
dc.type.status.fl_str_mv	info:eu-repo/semantics/publishedVersion
dc.type.driver.fl_str_mv	info:eu-repo/semantics/doctoralThesis
status_str	publishedVersion
format	doctoralThesis
dc.identifier.uri.fl_str_mv	http://www.teses.ufc.br/tde_busca/arquivo.php?codArquivo=16371
url	http://www.teses.ufc.br/tde_busca/arquivo.php?codArquivo=16371
dc.language.iso.fl_str_mv	por
language	por
dc.rights.driver.fl_str_mv	info:eu-repo/semantics/openAccess
eu_rights_str_mv	openAccess
dc.format.none.fl_str_mv	application/pdf
dc.publisher.none.fl_str_mv	Universidade Federal do CearÃ
dc.publisher.program.fl_str_mv	Programa de PÃs-GraduaÃÃo em Ecologia e Recursos Naturais
dc.publisher.initials.fl_str_mv	UFC
dc.publisher.country.fl_str_mv	BR
publisher.none.fl_str_mv	Universidade Federal do CearÃ
dc.source.none.fl_str_mv	reponame:Biblioteca Digital de Teses e Dissertações da UFC instname:Universidade Federal do Ceará instacron:UFC
reponame_str	Biblioteca Digital de Teses e Dissertações da UFC
collection	Biblioteca Digital de Teses e Dissertações da UFC
instname_str	Universidade Federal do Ceará
instacron_str	UFC
institution	UFC
repository.name.fl_str_mv	-
repository.mail.fl_str_mv	mail@mail.com
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Estudo de relaÃÃes ecolÃgicas em planÃcies hipersalinas (apicum) do estado do CearÃ

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