2020
DOI: 10.1080/15592324.2020.1770489
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Effects of hydric stress on vibrational frequency patterns of Capsicum annuum plants

Abstract: Plants that experience a lack of sufficient irrigation undergo hydric stress, which causes the modification of their mechanical properties. These changes include a complex network of chemical and physical signals that interact between plant-plant and plant-environment systems in a mechanism that is still not well understood, and that differs among species. This mechanical response implies different levels of vibration when the plant experiences structural modifications from self-hydraulic adjustments of flux e… Show more

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Cited by 9 publications
(5 citation statements)
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“…Plants utilize acoustic and electric signals as internal and inter‐plant signals. A sound vibration signal can be generated by a herbivore walking on the plant, breaking trichomes, chewing the plant and even by water stress (Caicedo‐Lopez, Contreras‐Medina, Guevara‐Gonzaleza, Perez‐Matzumotob, & Ruiz‐Ruedab, 2020; Kollasch et al, 2020). Pest species might be discriminated based on the vibration frequency they produce (Kollasch et al, 2020).…”
Section: Wireless Communication: Signal Input‐transfer‐output Modelmentioning
confidence: 99%
“…Plants utilize acoustic and electric signals as internal and inter‐plant signals. A sound vibration signal can be generated by a herbivore walking on the plant, breaking trichomes, chewing the plant and even by water stress (Caicedo‐Lopez, Contreras‐Medina, Guevara‐Gonzaleza, Perez‐Matzumotob, & Ruiz‐Ruedab, 2020; Kollasch et al, 2020). Pest species might be discriminated based on the vibration frequency they produce (Kollasch et al, 2020).…”
Section: Wireless Communication: Signal Input‐transfer‐output Modelmentioning
confidence: 99%
“…Plants utilize acoustic and electric signals as internal and inter-plant signals. A sound vibration signal can be generated by a herbivore walking on the plant, breaking trichomes, chewing the plant, and even by water stress (Caicedo-Lopez, Contreras-Medina, Guevara-Gonzaleza, Perez-Matzumotob & Ruiz-Ruedab, 2020, Kollasch, Abdul-Kaf, Body, Pinto, Appel & Cocroft, 2020. Pest species might be discriminated based on the vibration frequency they produce (Kollasch et al , 2020).…”
Section: ? Acoustic and Electric Signalsmentioning
confidence: 99%
“…En términos generales, el clima es el principal factor ecológico que influye en los cambios de la fenología y la composición vegetal, también influyen notablemente las condiciones hídricas como los excesos de agua (condiciones de anegación) y el déficit de agua (Gliessman, 2002). Siendo el estrés producido por la falta de agua, el que provoca modificaciones en sus propiedades mecánicas, es decir cambios incluyen una compleja red de señales químicas y físicas que interactúan Ciencias Ambientales entre los sistemas planta-planta y planta-medio ambiente (Caicedo-Lopez et al, 2020) La sequía demanda mejorar la gestión eficaz del agua para la producción de cultivos en zonas de escases de agua. En este sentido se han buscado aumentar la productividad de los cultivos con técnicas encaminadas a realizar un uso eficiente y eficaz del agua.…”
Section: Ciencias Ambientales Introducciónunclassified