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Quantity over quality: light intensity, but not red/far-red ratio, affects extrafloral nectar production in Senna mexicana var. chapmanii.

Jones IM, Koptur S - Ecol Evol (2015)

Bottom Line: Plants in light-limited conditions produced significantly less EFN, and leaf damage elicited increased EFN production regardless of light conditions.Ratios of R/FR light, however, did not appear to affect EFN production in either damaged or undamaged plants.Understanding the effects of light on indirect defenses is of particular importance for plants in the threatened pine rockland habitats of south Florida, where light conditions are changing in predictable ways following extensive fragmentation and subsequent mismanagement.

View Article: PubMed Central - PubMed

Affiliation: Department of Biological Sciences Florida International University Miami Florida.

ABSTRACT
Extrafloral nectar (EFN) mediates food-for-protection mutualisms between plants and insects and provides plants with a form of indirect defense against herbivory. Understanding sources of variation in EFN production is important because such variations affect the number and identity of insect visitors and the effectiveness of plant defense. Light represents a potentially crucial tool for regulating resource allocation to defense, as it not only contributes energy but may help plants to anticipate future conditions. Low red/far-red (R/FR) light ratios can act as a signal of the proximity of competing plants. Exposure to such light ratios has been shown to promote competitive behaviors that coincide with reduced resource allocation to direct chemical defenses. Little is known, however, about how such informational light signals might affect indirect defenses such as EFN, and the interactions that they mediate. Through controlled glasshouse experiments, we investigated the effects of light intensity, and R/FR light ratios, on EFN production in Senna mexicana var. chapmanii. Plants in light-limited conditions produced significantly less EFN, and leaf damage elicited increased EFN production regardless of light conditions. Ratios of R/FR light, however, did not appear to affect EFN production in either damaged or undamaged plants. Understanding the effects of light on indirect defenses is of particular importance for plants in the threatened pine rockland habitats of south Florida, where light conditions are changing in predictable ways following extensive fragmentation and subsequent mismanagement. Around 27% of species in these habitats produce EFN and may rely on insect communities for defense.

No MeSH data available.


Related in: MedlinePlus

Mean percentage of light of different wavelengths (300–1000 nm) transmitted through the three filter types. Light gray bands indicate red and far‐red light wavelengths, while the dark gray band indicates crossover between the two. The sharp rise in percentage light transmission in film 1, starting at around 710 nm, indicates the desired increase in R:FR light ratio within film 1 cylinders.
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ece31644-fig-0003: Mean percentage of light of different wavelengths (300–1000 nm) transmitted through the three filter types. Light gray bands indicate red and far‐red light wavelengths, while the dark gray band indicates crossover between the two. The sharp rise in percentage light transmission in film 1, starting at around 710 nm, indicates the desired increase in R:FR light ratio within film 1 cylinders.

Mentions: To determine the actual light environments within the film cylinders, the intensity and spectral distribution of light within the glasshouse were measured using a radiospectrometer (Unispec‐DC, PP SYSTEMS, Amesbury, MA, USA). These measurements were then compared with measurements taken inside the film cylinders 1, 2, and 3. Percentage transmittance of light through each film type, at a range of wavelengths (300–1000 nm), was then calculated. Three of each filter type were tested (Fig. 3).


Quantity over quality: light intensity, but not red/far-red ratio, affects extrafloral nectar production in Senna mexicana var. chapmanii.

Jones IM, Koptur S - Ecol Evol (2015)

Mean percentage of light of different wavelengths (300–1000 nm) transmitted through the three filter types. Light gray bands indicate red and far‐red light wavelengths, while the dark gray band indicates crossover between the two. The sharp rise in percentage light transmission in film 1, starting at around 710 nm, indicates the desired increase in R:FR light ratio within film 1 cylinders.
© Copyright Policy - creativeCommonsBy
Related In: Results  -  Collection

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getmorefigures.php?uid=PMC4588640&req=5

ece31644-fig-0003: Mean percentage of light of different wavelengths (300–1000 nm) transmitted through the three filter types. Light gray bands indicate red and far‐red light wavelengths, while the dark gray band indicates crossover between the two. The sharp rise in percentage light transmission in film 1, starting at around 710 nm, indicates the desired increase in R:FR light ratio within film 1 cylinders.
Mentions: To determine the actual light environments within the film cylinders, the intensity and spectral distribution of light within the glasshouse were measured using a radiospectrometer (Unispec‐DC, PP SYSTEMS, Amesbury, MA, USA). These measurements were then compared with measurements taken inside the film cylinders 1, 2, and 3. Percentage transmittance of light through each film type, at a range of wavelengths (300–1000 nm), was then calculated. Three of each filter type were tested (Fig. 3).

Bottom Line: Plants in light-limited conditions produced significantly less EFN, and leaf damage elicited increased EFN production regardless of light conditions.Ratios of R/FR light, however, did not appear to affect EFN production in either damaged or undamaged plants.Understanding the effects of light on indirect defenses is of particular importance for plants in the threatened pine rockland habitats of south Florida, where light conditions are changing in predictable ways following extensive fragmentation and subsequent mismanagement.

View Article: PubMed Central - PubMed

Affiliation: Department of Biological Sciences Florida International University Miami Florida.

ABSTRACT
Extrafloral nectar (EFN) mediates food-for-protection mutualisms between plants and insects and provides plants with a form of indirect defense against herbivory. Understanding sources of variation in EFN production is important because such variations affect the number and identity of insect visitors and the effectiveness of plant defense. Light represents a potentially crucial tool for regulating resource allocation to defense, as it not only contributes energy but may help plants to anticipate future conditions. Low red/far-red (R/FR) light ratios can act as a signal of the proximity of competing plants. Exposure to such light ratios has been shown to promote competitive behaviors that coincide with reduced resource allocation to direct chemical defenses. Little is known, however, about how such informational light signals might affect indirect defenses such as EFN, and the interactions that they mediate. Through controlled glasshouse experiments, we investigated the effects of light intensity, and R/FR light ratios, on EFN production in Senna mexicana var. chapmanii. Plants in light-limited conditions produced significantly less EFN, and leaf damage elicited increased EFN production regardless of light conditions. Ratios of R/FR light, however, did not appear to affect EFN production in either damaged or undamaged plants. Understanding the effects of light on indirect defenses is of particular importance for plants in the threatened pine rockland habitats of south Florida, where light conditions are changing in predictable ways following extensive fragmentation and subsequent mismanagement. Around 27% of species in these habitats produce EFN and may rely on insect communities for defense.

No MeSH data available.


Related in: MedlinePlus