Fabiano Guimarães Silva scite author profile

Summary Plants continue to lose water from their leaves even after complete stomatal closure. Although this minimum conductance (gleaf‐res) has substantial impacts on strategies of water use and conservation, little is known about the potential drivers underlying the variability of this trait across species. We thus untangled the relative contribution of water leaks from the cuticle and stomata in order to investigate how the variability in leaf morphological and anatomical traits is related to the variation in gleaf‐res and carbon assimilation capacity across 30 diverse species from the Brazilian Cerrado. In addition to cuticle permeance, water leaks from stomata had a significant impact on gleaf‐res. The differential pattern of stomata distribution in the epidermis was a key factor driving this variation, suggesting the existence of a trade‐off between carbon assimilation and water loss through gleaf‐res. For instance, higher gleaf‐res, observed in fast‐growing species, was associated with the investment in small and numerous stomata, which allowed higher carbon assimilation rates but also increased water leaks, with negative impacts on leaf survival under drought. Variation in cuticle structural properties was not linked to gleaf‐res. Our results therefore suggest the existence of a trade‐off between carbon assimilation efficiency and dehydration tolerance at foliar level.

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Optimization of soymilk fermentation with kefir and the addition of inulin: Physicochemical, sensory and technological characteristics

Santos

Filho

Santana

et al. 2019

LWT

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Structural changes in latosols of the cerrado region: I - relationships between soil physical properties and least limiting water range

Severiano¹,

Oliveira

Júnior³

et al. 2011

Rev. Bras. Ciênc. Solo

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SUMMARYThe agricultural potential of Latosols of the Brazilian Cerrado region is high, but when intensively cultivated under inappropriate management systems, the porosity can be seriously reduced, leading to rapid soil degradation. Consequently, accelerated erosion and sedimentation of springs and creeks have been observed. Therefore, the objective of this study was to evaluate structural changes of Latosols in Rio Verde, Goiás, based on the Least Limiting Water Range (LLWR), and relationships between LLWR and other physical properties. Soil samples were collected from the B horizons of five oxidic Latosols representing the textural variability of the Latosols of the Cerrado biome. LLWR and other soil physical properties were determined at various soil compaction degrees induced by uniaxial compression. Soil compaction caused effects varying from enhanced plant growth due to higher water retention, to severe restriction of edaphic functions. Also, inverse relationships were observed between clay content and bulk density values (Bd) under different structural conditions. Bd values corresponding to critical soil macroporosity (Bdc MAC ) were more restrictive to a sustainable use of the studied Latosols than the critical Bd corresponding to LLWR (Bdc LLWR ). The high tolerable compression potential of these oxidic Latosols was related to the high aeration porosity associated to the granular structure.Index Terms: soil compaction, degradation of agricultural soils, soil penetration resistance, water availability, soil texture. RESUMO: ALTERAÇÕES ESTRUTURAIS DE LATOSSOLOS REPRE-SENTATIVOS DA REGIÃO DO CERRADO: I -RELAÇÕES EN-TRE PROPRIEDADES FÍSICAS DO SOLO E INTERVALO HÍDRICO ÓTIMO

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Okara: A soybean by-product as an alternative to enrich vegetable paste

Guimarães

Silva

Lemes

et al. 2018

LWT

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A Structure Shaped by Fire, but Also Water: Ecological Consequences of the Variability in Bark Properties Across 31 Species From the Brazilian Cerrado

et al. 2020

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Bark is a structure involved in multiple physiological functions, but which has been traditionally associated with protection against fire. Thus, little is known about how the morpho-anatomical variations of this structure are related to different ecological pressures, especially in tropical savanna species, which are commonly subjected to frequent fire and drought events. Here we evaluated how the structural and functional variations of bark are related to the processes of resilience and resistance to fire, as well as transport and storage of water in 31 native species from the Brazilian Cerrado. Because of their thick bark, none of the trees analyzed were top-killed after a severe fire event. The structural and functional variations of the bark were also associated with water storage and transport, functions related to properties of the inner bark. In fact, species with a thicker and less dense inner bark were the ones that had the highest water contents in the wood, bark, and leaves. Lower bark density was also related to higher stem hydraulic conductivity, carbon assimilation, and growth. Overall, we provide strong evidence that in addition to protection from fire, the relative investment in bark also reflects different strategies of water use and conservation among many Cerrado tree species.

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