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Herbivory and leaf traits of Amazonian tree species as affected by irradiance

Herbivory is one of the major biotic stress factors that affect the establishment of plants. However, the main factors that drive herbivory in seedlings of Amazonian tree species are still not well understood. Here we investigated whether contrasting levels of irradiance influence herbivory accordin...

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Published in:Plant biology (Stuttgart, Germany) Germany), 2021-03, Vol.23 (2), p.229-240
Main Authors: Coelho da Silva, D., Guimarães, Z. T. M., Ferreira dos Santos, V. A. H., Grandis, A., Palacios, C. E., Ferreira, M. J., Martinez‐Medina, A.
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creator Coelho da Silva, D.
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Martinez‐Medina, A.
description Herbivory is one of the major biotic stress factors that affect the establishment of plants. However, the main factors that drive herbivory in seedlings of Amazonian tree species are still not well understood. Here we investigated whether contrasting levels of irradiance influence herbivory according to different herbivory indicators and which leaf traits are most related to interspecific variation in herbivory under contrasting irradiance conditions. We measured the leaf area lost as a result of insect herbivory in five tree species planted in a silvicultural system of secondary forest enrichment according to two indicators, herbivore damage (accumulated since plant germination) and herbivory rate (measured over time), and two irradiance conditions, understorey PPFD 2.6 mol·m−2·day−1) and gap PPFD 33.1 mol·m−2·day−1. Furthermore, we related the interspecific variation in herbivory to a set of leaf traits: SLA, RWC, sclerophylly, phenolic compound content, tannins, condensed tannins and non‐structural carbohydrates. Herbivore damage was significantly affected by light availability and species, with the highest percentage variation observed in the Meliaceae (Carapa guianensis and Swietenia macrophylla). For the herbivory rate, only the interspecific variation was significant, with Bertholletia excelsa having the lowest rates. Chemical characteristics (phenolic compounds and tannins) were most related to herbivory rates, as well as highly influenced by light conditions. Non‐structural carbohydrates (starch and sucrose) were also related to the interspecific variation in herbivory. The phenolic compounds and starch, as affected by light quantity, are species dependent. Thus, the selective pressure on herbivores may be driven by species‐dependent responses to light conditions. Herbivory may be driven by species‐dependent responses to light conditions.
doi_str_mv 10.1111/plb.13191
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T. M. ; Ferreira dos Santos, V. A. H. ; Grandis, A. ; Palacios, C. E. ; Ferreira, M. J. ; Martinez‐Medina, A.</creator><contributor>Martinez‐Medina, A.</contributor><creatorcontrib>Coelho da Silva, D. ; Guimarães, Z. T. M. ; Ferreira dos Santos, V. A. H. ; Grandis, A. ; Palacios, C. E. ; Ferreira, M. J. ; Martinez‐Medina, A. ; Martinez‐Medina, A.</creatorcontrib><description>Herbivory is one of the major biotic stress factors that affect the establishment of plants. However, the main factors that drive herbivory in seedlings of Amazonian tree species are still not well understood. Here we investigated whether contrasting levels of irradiance influence herbivory according to different herbivory indicators and which leaf traits are most related to interspecific variation in herbivory under contrasting irradiance conditions. We measured the leaf area lost as a result of insect herbivory in five tree species planted in a silvicultural system of secondary forest enrichment according to two indicators, herbivore damage (accumulated since plant germination) and herbivory rate (measured over time), and two irradiance conditions, understorey PPFD 2.6 mol·m−2·day−1) and gap PPFD 33.1 mol·m−2·day−1. Furthermore, we related the interspecific variation in herbivory to a set of leaf traits: SLA, RWC, sclerophylly, phenolic compound content, tannins, condensed tannins and non‐structural carbohydrates. Herbivore damage was significantly affected by light availability and species, with the highest percentage variation observed in the Meliaceae (Carapa guianensis and Swietenia macrophylla). For the herbivory rate, only the interspecific variation was significant, with Bertholletia excelsa having the lowest rates. 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We measured the leaf area lost as a result of insect herbivory in five tree species planted in a silvicultural system of secondary forest enrichment according to two indicators, herbivore damage (accumulated since plant germination) and herbivory rate (measured over time), and two irradiance conditions, understorey PPFD 2.6 mol·m−2·day−1) and gap PPFD 33.1 mol·m−2·day−1. Furthermore, we related the interspecific variation in herbivory to a set of leaf traits: SLA, RWC, sclerophylly, phenolic compound content, tannins, condensed tannins and non‐structural carbohydrates. Herbivore damage was significantly affected by light availability and species, with the highest percentage variation observed in the Meliaceae (Carapa guianensis and Swietenia macrophylla). For the herbivory rate, only the interspecific variation was significant, with Bertholletia excelsa having the lowest rates. 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Here we investigated whether contrasting levels of irradiance influence herbivory according to different herbivory indicators and which leaf traits are most related to interspecific variation in herbivory under contrasting irradiance conditions. We measured the leaf area lost as a result of insect herbivory in five tree species planted in a silvicultural system of secondary forest enrichment according to two indicators, herbivore damage (accumulated since plant germination) and herbivory rate (measured over time), and two irradiance conditions, understorey PPFD 2.6 mol·m−2·day−1) and gap PPFD 33.1 mol·m−2·day−1. Furthermore, we related the interspecific variation in herbivory to a set of leaf traits: SLA, RWC, sclerophylly, phenolic compound content, tannins, condensed tannins and non‐structural carbohydrates. Herbivore damage was significantly affected by light availability and species, with the highest percentage variation observed in the Meliaceae (Carapa guianensis and Swietenia macrophylla). For the herbivory rate, only the interspecific variation was significant, with Bertholletia excelsa having the lowest rates. Chemical characteristics (phenolic compounds and tannins) were most related to herbivory rates, as well as highly influenced by light conditions. Non‐structural carbohydrates (starch and sucrose) were also related to the interspecific variation in herbivory. The phenolic compounds and starch, as affected by light quantity, are species dependent. Thus, the selective pressure on herbivores may be driven by species‐dependent responses to light conditions. 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source Wiley:Jisc Collections:Wiley Read and Publish Open Access 2024-2025 (reading list)
subjects Animals
biotic stress
Carbohydrates
Chemical compounds
Damage accumulation
ecophysiology
enrichment planting
Germination
Herbivores
Herbivory
Herbivory - radiation effects
Indicators
Insecta - physiology
Insects
Interspecific
Irradiance
Leaf area
Leaves
Light effects
Phenolic compounds
Phenols
Phenotype
Plant Leaves - anatomy & histology
Plant Leaves - metabolism
Plant Leaves - radiation effects
Plant species
Pressure dependence
Seedlings
Silviculture
soluble sugars
Species
Starch
Structural damage
Sucrose
Sugar
Sunlight
Tannins
Trees - anatomy & histology
Trees - radiation effects
Variation
title Herbivory and leaf traits of Amazonian tree species as affected by irradiance
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