Marcos Miranda Toledo scite author profile

International audienceThe seasonal climate drivers of the carbon cycle in tropical forests remain poorly known, although these forests account for more carbon assimilation and storage than any other terrestrial ecosystem. Based on a unique combination of seasonal pan-tropical data sets from 89 experimental sites (68 include aboveground wood productivity measurements and 35 litter productivity measurements), their associated canopy photosynthetic capacity (enhanced vegetation index, EVI) and climate, we ask how carbon assimilation and aboveground allocation are related to climate seasonality in tropical forests and how they interact in the seasonal carbon cycle. We found that canopy photosynthetic capacity seasonality responds positively to precipitation when rainfall is < 2000 mm yr(-1) (water-limited forests) and to radiation otherwise (light-limited forests). On the other hand, independent of climate limitations, wood productivity and litterfall are driven by seasonal variation in precipitation and evapotranspiration, respectively. Consequently, light-limited forests present an asynchronism between canopy photosynthetic capacity and wood productivity. First-order control by precipitation likely indicates a decrease in tropical forest productivity in a drier climate in water-limited forest, and in current light-limited forest with future rainfall < 2000 mm yr(-1)

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Stem radial increment of forest and savanna ecotypes of a Neotropical tree: relationships with climate, phenology, and water potential

Toledo

Paiva

Lovato

et al. 2012

Trees

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The aim of the present study was to investigate differences in stem radial increment between the savanna and forest ecotypes of Plathymenia reticulata at an ecotonal site. It was hypothesised that even under similar climate conditions, the savanna and forest ecotypes exhibit differences in radial growth, phenology, and water status because of differences in wood density. Stem radial increment, phenology, and water potential were evaluated monthly. The radial increment was positively related to precipitation and displayed no increment (or decrement) in months with low rainfall. A negative relationship was observed between radial growth and wood density, with the forest ecotype exhibiting a higher radial increment than the savanna ecotype. Midday water potential (W MD ) was also negatively related to wood density. Compared to the forest ecotype, the savanna ecotype displayed lower values of W MD during the dry season and started leaf senescence earlier at the beginning of the dry season. Leaf fall improved water status, resulting in leaf flushing even without a significant increase in rainfall. Radial growth significantly increased only after the crown leaf cover was completed. The results confirmed the importance of wood density in the differential responses of ecotypes in relation to growth, water status, and phenology.

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Climate seasonality limits carbon assimilation and storage in tropical forests

Wagner¹,

Hérault²,

Bonal³

et al. 2016

Preprint

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Abstract. The seasonal climate drivers of the carbon cycle in tropical forests remain poorly known, although these forests account for more carbon assimilation and storage than any other terrestrial ecosystem. Based on a unique combination of seasonal pan-tropical data sets from 89 experimental sites (68 include aboveground wood productivity measurements and 35 litter productivity measurements), their associate canopy photosynthetic capacity (enhanced vegetation index, EVI) and climate, we ask how carbon assimilation and aboveground allocation are related to climate seasonality in tropical forests and how they interact in the seasonal carbon cycle. We found that canopy photosynthetic capacity seasonality responds positively to precipitation when rainfall is < 2000 mm.yr&#8722;1 (water-limited forests) and to radiation otherwise (light-limited forests); on the other hand, independent of climate limitations, wood productivity and litterfall are driven by seasonal variation in precipitation and evapotranspiration respectively. Consequently, light-limited forests present an asynchronism between canopy photosynthetic capacity and wood productivity. Precipitation first-order control indicates an overall decrease in tropical forest productivity in a drier climate.

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What is the name of the babassu? A note on the confusing use of scientific names for this important palm tree

Cavallari

Toledo

2016

Rodriguésia

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Various scientific names are usually found for the babassu in current literature: mainly Orbignya phalerata and Attalea speciosa, but also O. speciosa and O. martiana, among others. This multiplicity of names leads to great confusion in the scientific community causing mistakes to be successively propagated. This note aims to clarify the problem, reviewing the species nomenclature history since the first description by Martius, in 1826, and reporting the successive name changes which occurred. Consequences of the lumping of four closely related genera, of recent phylogenetic studies and of the last changes in palm classification on the species nomenclature are also briefly discussed. In addition, searching results on scientific names at the main Plant Name Indexes are presented here. As a conclusion, we recommend the adoption of Attalea speciosa Mart ex. Spreng as the most suitable name for the babassu and highlight that a broad taxonomic review of the Attalea group is necessary. Key words: Attalea speciosa, Arecaceae, babassu, Orbignya phalerata, taxonomy. ResumoNa literatura científica atual são encontrados artigos que utilizam diferentes nomes científicos para o babaçu, principalmente Orbignya phalerata e Attalea speciosa, mas também O. speciosa, O. martiana, entre outros. Esta multiplicidade de nomes ocasiona uma grande confusão na comunidade científica que permite a propagação sucessiva de erros. Este artigo de opinião objetiva esclarecer aspectos deste problema, revisando a história da nomenclatura da espécie, desde a primeira descrição por Martius, em 1826, e evidenciando as sucessivas mudanças de nome que ocorreram. São também brevemente discutidas as consequências da fusão dos quatro gêneros relacionados, de recentes trabalhos de filogenia e das últimas mudanças em classificação de palmeiras para a nomenclatura da espécie. Adicionalmente, os resultados de buscas em Índices de Nomes de Plantas são apresentados. Como conclusão, recomendamos a adoção do nome Attalea speciosa Mart ex. Spreng como o mais adequado para o babaçu e frisamos a forte necessidade de uma ampla revisão taxonômica do grupo.

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Estimation of Genetic Parameters of Turia&ccedil;u Pineapple Clones and Genetic Correlation between Traits

Abreu¹,

Toledo²,

Cavallari³

et al. 2017

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This study aimed to estimate genetic parameters of Turiaçu pineapple clones using mixed models; and estimate genetic correlation coefficient between traits, to provide important information to breeding programs. For this, 19 pineapple plants were visually selected and its slips were collected and planted in a single environment and nine traits were evaluated. The genetic parameters of most evaluated traits presented significant differences between the 19 clones. Some traits, such as Fusarium wilt resistance, showed high magnitudes of heritability. Clones did not differ in relation to total titratable acidity (TTA) and total soluble solids (TSS). However, these traits, which have implications to fruit quality, showed to be negatively correlated to fruit mass (−0.46 and −0.67). The results indicate that the population of Turiaçu pineapple is suitable for selection, especially for Fusarium wilt resistance. Also, Turiaçu clones can be used in breeding programs of pineapple.

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