Data from: Specialized roots of Velloziaceae weather quartzite rock while mobilizing phosphorus using carboxylates

1.Campos rupestres is an extremely phosphorus (P)‐impoverished rocky ecosystem in Brazil. Velloziaceae is an important plant family in this environment, and some species colonize exposed quartzite rock. However, we know virtually nothing about their root development and nutrient acquisition within t...

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Hauptverfasser:	Teodoro, Grazielle Sales, Lambers, Hans, Nascimento, Diego L, Costa, Patrícia De Britto, Flores-Borges, Denisele N. A, Abrahão, Anna, Mayer, Juliana L. S, Sawaya, Alexandra C. H. F, Ladeira, Francisco Sérgio Bernardes, Abdala, Dalton Belchior, Perez, Carlos A, Oliveira, Rafael S
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Schlagworte:	campos rupestres exudates Phosphorus quartzite weathering
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creator	Teodoro, Grazielle Sales Lambers, Hans Nascimento, Diego L Costa, Patrícia De Britto Flores-Borges, Denisele N. A Abrahão, Anna Mayer, Juliana L. S Sawaya, Alexandra C. H. F Ladeira, Francisco Sérgio Bernardes Abdala, Dalton Belchior Perez, Carlos A Oliveira, Rafael S
description	1.Campos rupestres is an extremely phosphorus (P)‐impoverished rocky ecosystem in Brazil. Velloziaceae is an important plant family in this environment, and some species colonize exposed quartzite rock. However, we know virtually nothing about their root development and nutrient acquisition within the rock outcrops and their possible role in rock weathering and landscape formation. 2.We tested the hypothesis that Velloziaceae dissolve P from the rock, enhancing rock‐weathering. The study was carried out with two Barbacenia species (Velloziaceae) that colonize quartzite rocks. We assessed the root specializations and exudates, and determined the mineralogical composition of the rocks. 3.The quartzite rocks contained a low concentration of total P in a matrix composed predominantly of silica. Using transmission electron microscopy, we show root growth perpendicular to the rock‐bedding planes. A micro‐XRF setup at the XRF beamline of a synchrotron evidenced root‐associated rock dissolution. 4.The investigated roots show novel morphological and physiological specializations, coined vellozioid roots, which are highly effective at P acquisition. These carboxylate‐releasing roots function like others specialized roots in nutrient‐depleted soils. The rocks represent a barrier for most species, but due to their chemical and physical actions inside the rocks, vellozioid roots play a pivotal role in rock weathering, contributing to shaping the campos rupestres landscapes.,Teodoro et al. 20191. Carboxylate concentrations during vellozioid root development in Barbacenia tomentosa: immature (2-4 days), mature (6-12 days) and senescent (more than 15 days); 2. Mineral element concentration (mg g-1) in quartzite rock in campos rupestres. The rock samples were collected in Itutinga, Diamantina and Serra do Cipó National Park (n=9), Minas Gerais, Brazil; 3. Solubilized phosphorus (P) from quartzite rock collected in campos rupestres as affected by the addition of carboxylates (malate)., \| External Organisations Universidade Estadual de Campinas; Centro Nacional de Pesquisa em Energia e Materiais; Brazilian Center for Research in Energy and Materials \| Associated Persons Patrícia De Britto Costa (Creator); Anna Abrahão (Creator); Rafael S. Oliveira (Creator)Grazielle Sales Teodoro (Creator); Diego L. Nascimento (Creator); Denisele N. A. Flores-Borges (Creator); Juliana L. S. Mayer (Creator); Alexandra C. H. F. Sawaya (Creator); Francisco Sérgio Bernardes Ladeira (Creator); Da
doi_str_mv	10.5061/dryad.6p65fh1
format	Dataset
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A ; Abrahão, Anna ; Mayer, Juliana L. S ; Sawaya, Alexandra C. H. F ; Ladeira, Francisco Sérgio Bernardes ; Abdala, Dalton Belchior ; Perez, Carlos A ; Oliveira, Rafael S</creator><creatorcontrib>Teodoro, Grazielle Sales ; Lambers, Hans ; Nascimento, Diego L ; Costa, Patrícia De Britto ; Flores-Borges, Denisele N. A ; Abrahão, Anna ; Mayer, Juliana L. S ; Sawaya, Alexandra C. H. F ; Ladeira, Francisco Sérgio Bernardes ; Abdala, Dalton Belchior ; Perez, Carlos A ; Oliveira, Rafael S</creatorcontrib><description>1.Campos rupestres is an extremely phosphorus (P)‐impoverished rocky ecosystem in Brazil. Velloziaceae is an important plant family in this environment, and some species colonize exposed quartzite rock. However, we know virtually nothing about their root development and nutrient acquisition within the rock outcrops and their possible role in rock weathering and landscape formation. 2.We tested the hypothesis that Velloziaceae dissolve P from the rock, enhancing rock‐weathering. The study was carried out with two Barbacenia species (Velloziaceae) that colonize quartzite rocks. We assessed the root specializations and exudates, and determined the mineralogical composition of the rocks. 3.The quartzite rocks contained a low concentration of total P in a matrix composed predominantly of silica. Using transmission electron microscopy, we show root growth perpendicular to the rock‐bedding planes. A micro‐XRF setup at the XRF beamline of a synchrotron evidenced root‐associated rock dissolution. 4.The investigated roots show novel morphological and physiological specializations, coined vellozioid roots, which are highly effective at P acquisition. These carboxylate‐releasing roots function like others specialized roots in nutrient‐depleted soils. The rocks represent a barrier for most species, but due to their chemical and physical actions inside the rocks, vellozioid roots play a pivotal role in rock weathering, contributing to shaping the campos rupestres landscapes.,Teodoro et al. 20191. Carboxylate concentrations during vellozioid root development in Barbacenia tomentosa: immature (2-4 days), mature (6-12 days) and senescent (more than 15 days); 2. Mineral element concentration (mg g-1) in quartzite rock in campos rupestres. The rock samples were collected in Itutinga, Diamantina and Serra do Cipó National Park (n=9), Minas Gerais, Brazil; 3. Solubilized phosphorus (P) from quartzite rock collected in campos rupestres as affected by the addition of carboxylates (malate)., \| External Organisations Universidade Estadual de Campinas; Centro Nacional de Pesquisa em Energia e Materiais; Brazilian Center for Research in Energy and Materials \| Associated Persons Patrícia De Britto Costa (Creator); Anna Abrahão (Creator); Rafael S. Oliveira (Creator)Grazielle Sales Teodoro (Creator); Diego L. Nascimento (Creator); Denisele N. A. Flores-Borges (Creator); Juliana L. S. Mayer (Creator); Alexandra C. H. F. Sawaya (Creator); Francisco Sérgio Bernardes Ladeira (Creator); Dalton Belchior Abdala (Creator); Carlos A. Perez (Creator)</description><identifier>DOI: 10.5061/dryad.6p65fh1</identifier><language>eng</language><publisher>DRYAD</publisher><subject>campos rupestres ; exudates ; Phosphorus ; quartzite ; weathering</subject><creationdate>2019</creationdate><oa>free_for_read</oa><woscitedreferencessubscribed>false</woscitedreferencessubscribed></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><linktohtml>$$Uhttps:/researchdata.edu.au/1703574$$EHTML$$P50$$Gands$$Hfree_for_read</linktohtml><link.rule.ids>777,1888,27260,75978</link.rule.ids><linktorsrc>$$Uhttp://researchdata.ands.org.au/1703574$$EView_record_in_Australian_National_Data_Service$$FView_record_in_$$GAustralian_National_Data_Service$$Hfree_for_read</linktorsrc></links><search><creatorcontrib>Teodoro, Grazielle Sales</creatorcontrib><creatorcontrib>Lambers, Hans</creatorcontrib><creatorcontrib>Nascimento, Diego L</creatorcontrib><creatorcontrib>Costa, Patrícia De Britto</creatorcontrib><creatorcontrib>Flores-Borges, Denisele N. A</creatorcontrib><creatorcontrib>Abrahão, Anna</creatorcontrib><creatorcontrib>Mayer, Juliana L. S</creatorcontrib><creatorcontrib>Sawaya, Alexandra C. H. F</creatorcontrib><creatorcontrib>Ladeira, Francisco Sérgio Bernardes</creatorcontrib><creatorcontrib>Abdala, Dalton Belchior</creatorcontrib><creatorcontrib>Perez, Carlos A</creatorcontrib><creatorcontrib>Oliveira, Rafael S</creatorcontrib><title>Data from: Specialized roots of Velloziaceae weather quartzite rock while mobilizing phosphorus using carboxylates</title><description>1.Campos rupestres is an extremely phosphorus (P)‐impoverished rocky ecosystem in Brazil. Velloziaceae is an important plant family in this environment, and some species colonize exposed quartzite rock. However, we know virtually nothing about their root development and nutrient acquisition within the rock outcrops and their possible role in rock weathering and landscape formation. 2.We tested the hypothesis that Velloziaceae dissolve P from the rock, enhancing rock‐weathering. The study was carried out with two Barbacenia species (Velloziaceae) that colonize quartzite rocks. We assessed the root specializations and exudates, and determined the mineralogical composition of the rocks. 3.The quartzite rocks contained a low concentration of total P in a matrix composed predominantly of silica. Using transmission electron microscopy, we show root growth perpendicular to the rock‐bedding planes. A micro‐XRF setup at the XRF beamline of a synchrotron evidenced root‐associated rock dissolution. 4.The investigated roots show novel morphological and physiological specializations, coined vellozioid roots, which are highly effective at P acquisition. These carboxylate‐releasing roots function like others specialized roots in nutrient‐depleted soils. The rocks represent a barrier for most species, but due to their chemical and physical actions inside the rocks, vellozioid roots play a pivotal role in rock weathering, contributing to shaping the campos rupestres landscapes.,Teodoro et al. 20191. Carboxylate concentrations during vellozioid root development in Barbacenia tomentosa: immature (2-4 days), mature (6-12 days) and senescent (more than 15 days); 2. Mineral element concentration (mg g-1) in quartzite rock in campos rupestres. The rock samples were collected in Itutinga, Diamantina and Serra do Cipó National Park (n=9), Minas Gerais, Brazil; 3. Solubilized phosphorus (P) from quartzite rock collected in campos rupestres as affected by the addition of carboxylates (malate)., \| External Organisations Universidade Estadual de Campinas; Centro Nacional de Pesquisa em Energia e Materiais; Brazilian Center for Research in Energy and Materials \| Associated Persons Patrícia De Britto Costa (Creator); Anna Abrahão (Creator); Rafael S. Oliveira (Creator)Grazielle Sales Teodoro (Creator); Diego L. Nascimento (Creator); Denisele N. A. Flores-Borges (Creator); Juliana L. S. Mayer (Creator); Alexandra C. H. F. Sawaya (Creator); Francisco Sérgio Bernardes Ladeira (Creator); Dalton Belchior Abdala (Creator); Carlos A. 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A</creator><creator>Abrahão, Anna</creator><creator>Mayer, Juliana L. S</creator><creator>Sawaya, Alexandra C. H. F</creator><creator>Ladeira, Francisco Sérgio Bernardes</creator><creator>Abdala, Dalton Belchior</creator><creator>Perez, Carlos A</creator><creator>Oliveira, Rafael S</creator><general>DRYAD</general><general>Dryad</general><scope>AACKF</scope><scope>ADJYW</scope><scope>DYCCY</scope><scope>PQ8</scope></search><sort><creationdate>2019</creationdate><title>Data from: Specialized roots of Velloziaceae weather quartzite rock while mobilizing phosphorus using carboxylates</title><author>Teodoro, Grazielle Sales ; Lambers, Hans ; Nascimento, Diego L ; Costa, Patrícia De Britto ; Flores-Borges, Denisele N. A ; Abrahão, Anna ; Mayer, Juliana L. S ; Sawaya, Alexandra C. H. 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F</creatorcontrib><creatorcontrib>Ladeira, Francisco Sérgio Bernardes</creatorcontrib><creatorcontrib>Abdala, Dalton Belchior</creatorcontrib><creatorcontrib>Perez, Carlos A</creatorcontrib><creatorcontrib>Oliveira, Rafael S</creatorcontrib><collection>Research Data Australia (RDA)</collection><collection>Research Data Australia (RDA) Full Text</collection><collection>DataCite (Open Access)</collection><collection>DataCite</collection></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext_linktorsrc</fulltext></delivery><addata><au>Teodoro, Grazielle Sales</au><au>Lambers, Hans</au><au>Nascimento, Diego L</au><au>Costa, Patrícia De Britto</au><au>Flores-Borges, Denisele N. A</au><au>Abrahão, Anna</au><au>Mayer, Juliana L. S</au><au>Sawaya, Alexandra C. H. F</au><au>Ladeira, Francisco Sérgio Bernardes</au><au>Abdala, Dalton Belchior</au><au>Perez, Carlos A</au><au>Oliveira, Rafael S</au><format>book</format><genre>unknown</genre><ristype>DATA</ristype><title>Data from: Specialized roots of Velloziaceae weather quartzite rock while mobilizing phosphorus using carboxylates</title><date>2019</date><risdate>2019</risdate><abstract>1.Campos rupestres is an extremely phosphorus (P)‐impoverished rocky ecosystem in Brazil. Velloziaceae is an important plant family in this environment, and some species colonize exposed quartzite rock. However, we know virtually nothing about their root development and nutrient acquisition within the rock outcrops and their possible role in rock weathering and landscape formation. 2.We tested the hypothesis that Velloziaceae dissolve P from the rock, enhancing rock‐weathering. The study was carried out with two Barbacenia species (Velloziaceae) that colonize quartzite rocks. We assessed the root specializations and exudates, and determined the mineralogical composition of the rocks. 3.The quartzite rocks contained a low concentration of total P in a matrix composed predominantly of silica. Using transmission electron microscopy, we show root growth perpendicular to the rock‐bedding planes. A micro‐XRF setup at the XRF beamline of a synchrotron evidenced root‐associated rock dissolution. 4.The investigated roots show novel morphological and physiological specializations, coined vellozioid roots, which are highly effective at P acquisition. These carboxylate‐releasing roots function like others specialized roots in nutrient‐depleted soils. The rocks represent a barrier for most species, but due to their chemical and physical actions inside the rocks, vellozioid roots play a pivotal role in rock weathering, contributing to shaping the campos rupestres landscapes.,Teodoro et al. 20191. Carboxylate concentrations during vellozioid root development in Barbacenia tomentosa: immature (2-4 days), mature (6-12 days) and senescent (more than 15 days); 2. Mineral element concentration (mg g-1) in quartzite rock in campos rupestres. The rock samples were collected in Itutinga, Diamantina and Serra do Cipó National Park (n=9), Minas Gerais, Brazil; 3. Solubilized phosphorus (P) from quartzite rock collected in campos rupestres as affected by the addition of carboxylates (malate)., \| External Organisations Universidade Estadual de Campinas; Centro Nacional de Pesquisa em Energia e Materiais; Brazilian Center for Research in Energy and Materials \| Associated Persons Patrícia De Britto Costa (Creator); Anna Abrahão (Creator); Rafael S. Oliveira (Creator)Grazielle Sales Teodoro (Creator); Diego L. Nascimento (Creator); Denisele N. A. Flores-Borges (Creator); Juliana L. S. Mayer (Creator); Alexandra C. H. F. Sawaya (Creator); Francisco Sérgio Bernardes Ladeira (Creator); Dalton Belchior Abdala (Creator); Carlos A. Perez (Creator)</abstract><pub>DRYAD</pub><doi>10.5061/dryad.6p65fh1</doi><oa>free_for_read</oa></addata></record>
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identifier	DOI: 10.5061/dryad.6p65fh1
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subjects	campos rupestres exudates Phosphorus quartzite weathering
title	Data from: Specialized roots of Velloziaceae weather quartzite rock while mobilizing phosphorus using carboxylates
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