Plant defense against leaf herbivory based on metal accumulation: examples from a tropical high altitude ecosystem

Species that evolved in high‐altitude grasslands, where soils are dystrophic and metal rich, developed adaptations for these extreme conditions, such as metal accumulation and sclerophyllous leaves, and these adaptations may secondarily affect insect herbivory activity. The present study investigate...

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Published inPlant species biology Vol. 32; no. 2; pp. 147 - 155
Main Authors Ribeiro, Sérvio P., Londe, Vinícius, Bueno, Amauri P., Barbosa, Juliana S., Corrêa, Tatiana L., Soeltl, Tatiana, Maia, Márcia, Pinto, Victor D., França Dueli, Grazieli, Sousa, Hildeberto Caldas, Kozovits, Alessandra R., Nalini, Hermínio A.
Format Journal Article
LanguageEnglish
Published Melbourne John Wiley & Sons Australia, Ltd 01.04.2017
Subjects
altitude
aluminum
Brazil
Byrsonima
ecosystems
elemental defense
Eremanthus
Ferriferous Quadrangle
grasslands
herbivores
insect–plant interactions
iron
leaves
Lychnophora ericoides
manganese
population size
rupestrian fields
soil
ultramafic soils
Brazil
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Abstract Species that evolved in high‐altitude grasslands, where soils are dystrophic and metal rich, developed adaptations for these extreme conditions, such as metal accumulation and sclerophyllous leaves, and these adaptations may secondarily affect insect herbivory activity. The present study investigates the hypothesis that costs related to accumulation of certain metals may be evolutionarily compensated for by decreasing leaf herbivory in some plant species from rupestrian fields. Studies were conducted in different locations at the Ferriferous Quadrangle, a metal‐rich region in south‐east Brazil, with four species adapted to high‐altitude grasslands: Eremanthus erythropappus, Eremanthus incanus, Lychnophora ericoides and Byrsonima variabilis. Sample design varied according to population sizes and spatial distribution of individuals. We found that concentrations of manganese (Mn) and iron (Fe) significantly reduced the herbivory in the leaves of E. erythroppapus and E. incanus, whereas aluminum (Al) reduced herbivory in L. ericoides, and Mn affected negatively the herbivory in B. variabilis. These results support the hypothesis that metal‐accumulating plants, as a response to the harsh environment in which they evolved, are protected against foliar damage caused by insect herbivores in rupestrian fields. The accumulation of metals by plants at the Ferriferous Quadrangule, south‐eastern Brazil, protects them against leaf herbivory.
AbstractList Species that evolved in high‐altitude grasslands, where soils are dystrophic and metal rich, developed adaptations for these extreme conditions, such as metal accumulation and sclerophyllous leaves, and these adaptations may secondarily affect insect herbivory activity. The present study investigates the hypothesis that costs related to accumulation of certain metals may be evolutionarily compensated for by decreasing leaf herbivory in some plant species from rupestrian fields. Studies were conducted in different locations at the Ferriferous Quadrangle, a metal‐rich region in south‐east Brazil, with four species adapted to high‐altitude grasslands: Eremanthus erythropappus, Eremanthus incanus, Lychnophora ericoides and Byrsonima variabilis. Sample design varied according to population sizes and spatial distribution of individuals. We found that concentrations of manganese (Mn) and iron (Fe) significantly reduced the herbivory in the leaves of E. erythroppapus and E. incanus, whereas aluminum (Al) reduced herbivory in L. ericoides, and Mn affected negatively the herbivory in B. variabilis. These results support the hypothesis that metal‐accumulating plants, as a response to the harsh environment in which they evolved, are protected against foliar damage caused by insect herbivores in rupestrian fields. The accumulation of metals by plants at the Ferriferous Quadrangule, south‐eastern Brazil, protects them against leaf herbivory.
Species that evolved in high‐altitude grasslands, where soils are dystrophic and metal rich, developed adaptations for these extreme conditions, such as metal accumulation and sclerophyllous leaves, and these adaptations may secondarily affect insect herbivory activity. The present study investigates the hypothesis that costs related to accumulation of certain metals may be evolutionarily compensated for by decreasing leaf herbivory in some plant species from rupestrian fields. Studies were conducted in different locations at the Ferriferous Quadrangle, a metal‐rich region in south‐east Brazil, with four species adapted to high‐altitude grasslands: Eremanthus erythropappus, Eremanthus incanus, Lychnophora ericoides and Byrsonima variabilis. Sample design varied according to population sizes and spatial distribution of individuals. We found that concentrations of manganese (Mn) and iron (Fe) significantly reduced the herbivory in the leaves of E. erythroppapus and E. incanus, whereas aluminum (Al) reduced herbivory in L. ericoides, and Mn affected negatively the herbivory in B. variabilis. These results support the hypothesis that metal‐accumulating plants, as a response to the harsh environment in which they evolved, are protected against foliar damage caused by insect herbivores in rupestrian fields.
Species that evolved in high‐altitude grasslands, where soils are dystrophic and metal rich, developed adaptations for these extreme conditions, such as metal accumulation and sclerophyllous leaves, and these adaptations may secondarily affect insect herbivory activity. The present study investigates the hypothesis that costs related to accumulation of certain metals may be evolutionarily compensated for by decreasing leaf herbivory in some plant species from rupestrian fields. Studies were conducted in different locations at the F erriferous Q uadrangle, a metal‐rich region in south‐east B razil, with four species adapted to high‐altitude grasslands: Eremanthus erythropappus , Eremanthus incanus , Lychnophora ericoides and Byrsonima variabilis . Sample design varied according to population sizes and spatial distribution of individuals. We found that concentrations of manganese ( M n) and iron ( F e) significantly reduced the herbivory in the leaves of E . erythroppapus and E . incanus , whereas aluminum ( A l) reduced herbivory in L . ericoides , and M n affected negatively the herbivory in B . variabilis . These results support the hypothesis that metal‐accumulating plants, as a response to the harsh environment in which they evolved, are protected against foliar damage caused by insect herbivores in rupestrian fields.
Species that evolved in high-altitude grasslands, where soils are dystrophic and metal rich, developed adaptations for these extreme conditions, such as metal accumulation and sclerophyllous leaves, and these adaptations may secondarily affect insect herbivory activity. The present study investigates the hypothesis that costs related to accumulation of certain metals may be evolutionarily compensated for by decreasing leaf herbivory in some plant species from rupestrian fields. Studies were conducted in different locations at the Ferriferous Quadrangle, a metal-rich region in south-east Brazil, with four species adapted to high-altitude grasslands: Eremanthus erythropappus , Eremanthus incanus , Lychnophora ericoides and Byrsonima variabilis . Sample design varied according to population sizes and spatial distribution of individuals. We found that concentrations of manganese (Mn) and iron (Fe) significantly reduced the herbivory in the leaves of E . erythroppapus and E . incanus , whereas aluminum (Al) reduced herbivory in L . ericoides , and Mn affected negatively the herbivory in B . variabilis . These results support the hypothesis that metal-accumulating plants, as a response to the harsh environment in which they evolved, are protected against foliar damage caused by insect herbivores in rupestrian fields. The accumulation of metals by plants at the Ferriferous Quadrangule, south-eastern Brazil, protects them against leaf herbivory.
Author Maia, Márcia
Barbosa, Juliana S.
Sousa, Hildeberto Caldas
Kozovits, Alessandra R.
Soeltl, Tatiana
Pinto, Victor D.
Corrêa, Tatiana L.
França Dueli, Grazieli
Londe, Vinícius
Bueno, Amauri P.
Nalini, Hermínio A.
Ribeiro, Sérvio P.
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  givenname: Hermínio A.
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Snippet Species that evolved in high‐altitude grasslands, where soils are dystrophic and metal rich, developed adaptations for these extreme conditions, such as metal...
Species that evolved in high-altitude grasslands, where soils are dystrophic and metal rich, developed adaptations for these extreme conditions, such as metal...
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SubjectTerms altitude
aluminum
Brazil
Byrsonima
ecosystems
elemental defense
Eremanthus
Ferriferous Quadrangle
grasslands
herbivores
insect–plant interactions
iron
leaves
Lychnophora ericoides
manganese
population size
rupestrian fields
soil
ultramafic soils
Title Plant defense against leaf herbivory based on metal accumulation: examples from a tropical high altitude ecosystem
URI https://onlinelibrary.wiley.com/doi/abs/10.1111%2F1442-1984.12136
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Volume 32
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