Titanium dioxide nanoparticles (TiO2-NPs) enhance drought tolerance and grain yield of sweet corn (Zea mays L.) under deficit irrigation regimes

Among environmental stresses, drought is the main limiting factor of crop yield. The use of nanomaterials has been considered a strategy to enhance the drought tolerance of plants. To evaluate the beneficial effect of titanium dioxide nanoparticles (TiO 2 -NPs; 0 (T 0 ), 50 (T 50 ), and 100 (T 100 )...

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Veröffentlicht in:	Acta physiologiae plantarum 2022-02, Vol.44 (2), Article 14
Hauptverfasser:	Karvar, Meghdad, Azari, Arman, Rahimi, Asghar, Maddah-Hosseini, Shahab, Ahmadi-Lahijani, Mohammad Javad
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Sprache:	eng
Schlagworte:	Agriculture Antioxidants Biomedical and Life Sciences Corn Crop yield Drought resistance Environmental stress Evaporation Grain Irrigation Irrigation efficiency Leaves Life Sciences Nanomaterials Nanoparticles Nanotechnology Original Article Photosystem II Plant Anatomy/Development Plant Biochemistry Plant Genetics and Genomics Plant Pathology Plant Physiology Proline Sweetcorn Titanium Titanium dioxide Water consumption Zea mays
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creator	Karvar, Meghdad Azari, Arman Rahimi, Asghar Maddah-Hosseini, Shahab Ahmadi-Lahijani, Mohammad Javad
description	Among environmental stresses, drought is the main limiting factor of crop yield. The use of nanomaterials has been considered a strategy to enhance the drought tolerance of plants. To evaluate the beneficial effect of titanium dioxide nanoparticles (TiO 2 -NPs; 0 (T 0 ), 50 (T 50 ), and 100 (T 100 ) mg l −1 ) and deficit irrigation (70 as control (I 70 ), 105 (I 105 ), and 140 (I 140 ) mm evaporation from Class A evaporation pan) on drought tolerance of sweet corn cv. chase, an open field experiment was performed in 2018–2019. The results showed that deficit irrigation decreased the maximum efficiency of PSII ( F v /F m ), but T 50 improved F v /F m . 50 mg l −1 TiO 2 -NPs enhanced leaf SOD, APX, and CAT antioxidant activities by 17%, 10%, and 24%, respectively, over the control. I 140 T 50 increased leaf proline content 8% and 17% over I 140 T 0 and I 140 T 100 , respectively. Grain number per ear with the highest correlation with grain yield ( r = 0.97) was the most determining grain yield component. The greatest grain yield was obtained from I 0 T 50 and I 105 T 50 (760 and 809 g m −2 , respectively). Therefore, I 105, due to less water consumption, and T 50 may be considered to produce sweet corn with a desired performance under water-limited conditions.
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The use of nanomaterials has been considered a strategy to enhance the drought tolerance of plants. To evaluate the beneficial effect of titanium dioxide nanoparticles (TiO 2 -NPs; 0 (T 0 ), 50 (T 50 ), and 100 (T 100 ) mg l −1 ) and deficit irrigation (70 as control (I 70 ), 105 (I 105 ), and 140 (I 140 ) mm evaporation from Class A evaporation pan) on drought tolerance of sweet corn cv. chase, an open field experiment was performed in 2018–2019. The results showed that deficit irrigation decreased the maximum efficiency of PSII ( F v /F m ), but T 50 improved F v /F m . 50 mg l −1 TiO 2 -NPs enhanced leaf SOD, APX, and CAT antioxidant activities by 17%, 10%, and 24%, respectively, over the control. I 140 T 50 increased leaf proline content 8% and 17% over I 140 T 0 and I 140 T 100 , respectively. Grain number per ear with the highest correlation with grain yield ( r = 0.97) was the most determining grain yield component. The greatest grain yield was obtained from I 0 T 50 and I 105 T 50 (760 and 809 g m −2 , respectively). 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The use of nanomaterials has been considered a strategy to enhance the drought tolerance of plants. To evaluate the beneficial effect of titanium dioxide nanoparticles (TiO 2 -NPs; 0 (T 0 ), 50 (T 50 ), and 100 (T 100 ) mg l −1 ) and deficit irrigation (70 as control (I 70 ), 105 (I 105 ), and 140 (I 140 ) mm evaporation from Class A evaporation pan) on drought tolerance of sweet corn cv. chase, an open field experiment was performed in 2018–2019. The results showed that deficit irrigation decreased the maximum efficiency of PSII ( F v /F m ), but T 50 improved F v /F m . 50 mg l −1 TiO 2 -NPs enhanced leaf SOD, APX, and CAT antioxidant activities by 17%, 10%, and 24%, respectively, over the control. I 140 T 50 increased leaf proline content 8% and 17% over I 140 T 0 and I 140 T 100 , respectively. Grain number per ear with the highest correlation with grain yield ( r = 0.97) was the most determining grain yield component. The greatest grain yield was obtained from I 0 T 50 and I 105 T 50 (760 and 809 g m −2 , respectively). 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The use of nanomaterials has been considered a strategy to enhance the drought tolerance of plants. To evaluate the beneficial effect of titanium dioxide nanoparticles (TiO 2 -NPs; 0 (T 0 ), 50 (T 50 ), and 100 (T 100 ) mg l −1 ) and deficit irrigation (70 as control (I 70 ), 105 (I 105 ), and 140 (I 140 ) mm evaporation from Class A evaporation pan) on drought tolerance of sweet corn cv. chase, an open field experiment was performed in 2018–2019. The results showed that deficit irrigation decreased the maximum efficiency of PSII ( F v /F m ), but T 50 improved F v /F m . 50 mg l −1 TiO 2 -NPs enhanced leaf SOD, APX, and CAT antioxidant activities by 17%, 10%, and 24%, respectively, over the control. I 140 T 50 increased leaf proline content 8% and 17% over I 140 T 0 and I 140 T 100 , respectively. Grain number per ear with the highest correlation with grain yield ( r = 0.97) was the most determining grain yield component. The greatest grain yield was obtained from I 0 T 50 and I 105 T 50 (760 and 809 g m −2 , respectively). Therefore, I 105, due to less water consumption, and T 50 may be considered to produce sweet corn with a desired performance under water-limited conditions.</abstract><cop>Berlin/Heidelberg</cop><pub>Springer Berlin Heidelberg</pub><doi>10.1007/s11738-021-03349-4</doi></addata></record>
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subjects	Agriculture Antioxidants Biomedical and Life Sciences Corn Crop yield Drought resistance Environmental stress Evaporation Grain Irrigation Irrigation efficiency Leaves Life Sciences Nanomaterials Nanoparticles Nanotechnology Original Article Photosystem II Plant Anatomy/Development Plant Biochemistry Plant Genetics and Genomics Plant Pathology Plant Physiology Proline Sweetcorn Titanium Titanium dioxide Water consumption Zea mays
title	Titanium dioxide nanoparticles (TiO2-NPs) enhance drought tolerance and grain yield of sweet corn (Zea mays L.) under deficit irrigation regimes
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