Ascophyllum nodosum Based Extracts Counteract Salinity Stress in Tomato by Remodeling Leaf Nitrogen Metabolism

Biostimulants have rapidly and widely been adopted as growth enhancers and stress protectants in agriculture, however, due to the complex nature of these products, their mechanism of action is not clearly understood. By using two algal based commercial biostimulants in combination with the Solanum l...

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Published in	Plants (Basel) Vol. 10; no. 6; p. 1044
Main Authors	Dell’Aversana, Emilia, Cirillo, Valerio, Van Oosten, Michael James, Di Stasio, Emilio, Saiano, Katya, Woodrow, Pasqualina, Ciarmiello, Loredana Filomena, Maggio, Albino, Carillo, Petronia
Format	Journal Article
Language	English
Published	Basel MDPI AG 21.05.2021 MDPI
Subjects	Abiotic stress Agricultural production Agriculture Algae amino acid metabolism Amino acids Ascophyllum nodosum Biometrics biostimulants Fertilizers Fruits Homeostasis leaves mechanism of action Metabolism Metabolites minor amino acids Nitrogen Nitrogen metabolism Nutrients osmolytes Osmotic stress Pesticides Phenotypes Plant cells Plant growth Plant tolerance Potassium Reactive oxygen species Salinity Salinity effects salt stress Scavenging seaweed extract Solanum lycopersicum Tomatoes
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Abstract	Biostimulants have rapidly and widely been adopted as growth enhancers and stress protectants in agriculture, however, due to the complex nature of these products, their mechanism of action is not clearly understood. By using two algal based commercial biostimulants in combination with the Solanum lycopersicum cv. MicroTom model system, we assessed how the modulation of nitrogen metabolites and potassium levels could contribute to mediate physiological mechanisms that are known to occur in response to salt/and or osmotic stress. Here we provide evidence that the reshaping of amino acid metabolism can work as a functional effector, coordinating ion homeostasis, osmotic adjustment and scavenging of reactive oxygen species under increased osmotic stress in MicroTom plant cells. The Superfifty biostimulant is responsible for a minor amino acid rich-phenotype and could represent an interesting instrument to untangle nitrogen metabolism dynamics in response to salinity and/or osmotic stress.
AbstractList	Biostimulants have rapidly and widely been adopted as growth enhancers and stress protectants in agriculture, however, due to the complex nature of these products, their mechanism of action is not clearly understood. By using two algal based commercial biostimulants in combination with the Solanum lycopersicum cv. MicroTom model system, we assessed how the modulation of nitrogen metabolites and potassium levels could contribute to mediate physiological mechanisms that are known to occur in response to salt/and or osmotic stress. Here we provide evidence that the reshaping of amino acid metabolism can work as a functional effector, coordinating ion homeostasis, osmotic adjustment and scavenging of reactive oxygen species under increased osmotic stress in MicroTom plant cells. The Superfifty biostimulant is responsible for a minor amino acid rich-phenotype and could represent an interesting instrument to untangle nitrogen metabolism dynamics in response to salinity and/or osmotic stress.Biostimulants have rapidly and widely been adopted as growth enhancers and stress protectants in agriculture, however, due to the complex nature of these products, their mechanism of action is not clearly understood. By using two algal based commercial biostimulants in combination with the Solanum lycopersicum cv. MicroTom model system, we assessed how the modulation of nitrogen metabolites and potassium levels could contribute to mediate physiological mechanisms that are known to occur in response to salt/and or osmotic stress. Here we provide evidence that the reshaping of amino acid metabolism can work as a functional effector, coordinating ion homeostasis, osmotic adjustment and scavenging of reactive oxygen species under increased osmotic stress in MicroTom plant cells. The Superfifty biostimulant is responsible for a minor amino acid rich-phenotype and could represent an interesting instrument to untangle nitrogen metabolism dynamics in response to salinity and/or osmotic stress. Biostimulants have rapidly and widely been adopted as growth enhancers and stress protectants in agriculture, however, due to the complex nature of these products, their mechanism of action is not clearly understood. By using two algal based commercial biostimulants in combination with the Solanum lycopersicum cv. MicroTom model system, we assessed how the modulation of nitrogen metabolites and potassium levels could contribute to mediate physiological mechanisms that are known to occur in response to salt/and or osmotic stress. Here we provide evidence that the reshaping of amino acid metabolism can work as a functional effector, coordinating ion homeostasis, osmotic adjustment and scavenging of reactive oxygen species under increased osmotic stress in MicroTom plant cells. The Superfifty biostimulant is responsible for a minor amino acid rich-phenotype and could represent an interesting instrument to untangle nitrogen metabolism dynamics in response to salinity and/or osmotic stress. Biostimulants have rapidly and widely been adopted as growth enhancers and stress protectants in agriculture, however, due to the complex nature of these products, their mechanism of action is not clearly understood. By using two algal based commercial biostimulants in combination with the Solanum lycopersicum cv. MicroTom model system, we assessed how the modulation of nitrogen metabolites and potassium levels could contribute to mediate physiological mechanisms that are known to occur in response to salt/and or osmotic stress. Here we provide evidence that the reshaping of amino acid metabolism can work as a functional effector, coordinating ion homeostasis, osmotic adjustment and scavenging of reactive oxygen species under increased osmotic stress in MicroTom plant cells. The Superfifty biostimulant is responsible for a minor amino acid rich-phenotype and could represent an interesting instrument to untangle nitrogen metabolism dynamics in response to salinity and/or osmotic stress.
Author	Di Stasio, Emilio Dell’Aversana, Emilia Cirillo, Valerio Ciarmiello, Loredana Filomena Woodrow, Pasqualina Saiano, Katya Van Oosten, Michael James Maggio, Albino Carillo, Petronia
AuthorAffiliation	2 Department of Agricultural Sciences, University of Naples “Federico II”, 80055 Portici, Italy; valerio.cirillo@unina.it (V.C.); dr.m.vanoosten@gmail.com (M.J.V.O.); emiliodistasio@gmail.com (E.D.S.); almaggio@unina.it (A.M.) 1 Department of Environmental, Biological and Pharmaceutical Sciences and Technologies, University of Campania “Luigi Vanvitelli”, Via Vivaldi 43, 81100 Caserta, Italy; emiliadellaversana@gmail.com (E.D.); katyasaiano@libero.it (K.S.); pasqualina.woodrow@unicampania.it (P.W.); loredanafilomena.ciarmiello@unicampania.it (L.F.C.)
AuthorAffiliation_xml	– name: 2 Department of Agricultural Sciences, University of Naples “Federico II”, 80055 Portici, Italy; valerio.cirillo@unina.it (V.C.); dr.m.vanoosten@gmail.com (M.J.V.O.); emiliodistasio@gmail.com (E.D.S.); almaggio@unina.it (A.M.) – name: 1 Department of Environmental, Biological and Pharmaceutical Sciences and Technologies, University of Campania “Luigi Vanvitelli”, Via Vivaldi 43, 81100 Caserta, Italy; emiliadellaversana@gmail.com (E.D.); katyasaiano@libero.it (K.S.); pasqualina.woodrow@unicampania.it (P.W.); loredanafilomena.ciarmiello@unicampania.it (L.F.C.)
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SubjectTerms	Abiotic stress Agricultural production Agriculture Algae amino acid metabolism Amino acids Ascophyllum nodosum Biometrics biostimulants Fertilizers Fruits Homeostasis leaves mechanism of action Metabolism Metabolites minor amino acids Nitrogen Nitrogen metabolism Nutrients osmolytes Osmotic stress Pesticides Phenotypes Plant cells Plant growth Plant tolerance Potassium Reactive oxygen species Salinity Salinity effects salt stress Scavenging seaweed extract Solanum lycopersicum Tomatoes
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Title	Ascophyllum nodosum Based Extracts Counteract Salinity Stress in Tomato by Remodeling Leaf Nitrogen Metabolism
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