Antioxidant status and their enhancements strategies for water stress tolerance in chickpea

Abstract Water stress executes severe influences on the plant growth and development through modifying physio-chemical properties. Therefore, a field experiment was designed to evaluate the antioxidant status and their enhancements strategies for water stress tolerance in chickpea on loam and clay loam soils under agro-ecological conditions of Arid Zone Research Institute, Bahawalpur (29.3871 °N, 71.653 °E) and Cholistan farm near Derawer (28.19°N, 71.80°E) of Southern Punjab, Pakistan during winter 2014-15. Experimental treatments comprised of two chickpea cultivars i.e. Bhakhar 2011 (drought tolerant) and DUSHT (drought sensitive), two water stress levels i.e. water stress at flowering stage and water stress at flowering + pod formation + grain filling stage including well watered (control) and two exogenous application of osmoprotectants i.e. glycine betaine (GB) 20 ppm and proline 10 uM including distilled water (control). Results indicated that water stress at various growth stages adversely affects the growth, yield and quality attributes of both chickpea cultivars. Exogenous application of GB and proline improved the growth, yield and quality parameters of both chickpea cultivars even under water stress conditions. However, superior results were obtained with exogenously applied GB on Bhakhar 2011 under well-watered conditions. Similarly, foliar spray of GB on chickpea cultivar Bhakhar 2011 under stress at flowering + pod formation + grain filling stage produced maximum superoxide dismutase, peroxidase and catalase contents. These results suggested that application of GB mitigates the adverse effects of water stress and enhanced tolerance in chickpea mainly due to higher antioxidant enzymes activity, demonstrating the protective measures of plant cells in stress condition. Hence, antioxidants status might be a suitable method for illustrating water stress tolerance in chickpea.

Resumo O estresse hídrico exerce fortes influências no crescimento e no desenvolvimento das plantas, modificando as propriedades físico-químicas. Portanto, a presente atividade de pesquisa foi projetada para avaliar o status antioxidante e suas estratégias de aprimoramento para tolerância ao estresse hídrico no grão-de-bico em condições agroecológicas, no Instituto de Pesquisa da Zona Árida, Bahawalpur (29.3871 ° N, 71.653 ° E) e fazenda do Cholistan, perto de Derawer (28.19 ° N, 71,80 ° E), no sul de Punjab, Paquistão, durante Rabi 2014-15. Tratamentos experimentais compostos de dois genótipos de grão-de-bico, como Bhakhar 2011 (tolerante à seca) e DUSHT (sensível à seca), dois níveis de estresse hídrico, ou seja, estresse hídrico no estágio de floração, estresse hídrico na fase de floração e estresse hídrico na fase de floração + formação de vagem + estágio de enchimento de grãos, incluindo água bem controlada (controle) e duas aplicações exógenas de osmoprotetores, isto é, glicina betaína 20 ppm e prolina 10 uM, incluindo água destilada (controle). Os resultados indicaram que o estresse hídrico em vários estágios de crescimento afeta negativamente os atributos de crescimento, rendimento e qualidade de ambas as cultivares de grão-de-bico. A aplicação exógena de glicina betaína e prolina melhorou os parâmetros de crescimento, rendimento e qualidade de ambos os genótipos de grão- de-bico, mesmo sob condições de estresse hídrico. No entanto, resultados superiores foram obtidos com glicina betaína aplicada exogenamente em Bhakhar 2011, em condições bem regadas. Além disso, o spray foliar de glicina betaína na cultivar de grão-de-bico Bhakhar 2011, sob estresse na fase de floração + formação de vagem + enchimento de grãos, produziu o máximo de superóxido dismutase, peroxidase e catalase. Esses resultados sugeriram que a aplicação de glicina betaína atenua os efeitos adversos do estresse hídrico e aumenta a tolerância no grão-de- bico, principalmente pela maior atividade de enzimas antioxidantes, demonstrando medidas protetoras das células vegetais em condições de estresse. Portanto, o status de antioxidantes pode ser um método adequado para ilustrar a tolerância ao estresse hídrico no grão-de-bico.

Antioxidant status and their enhancements strategies for water stress tolerance in chickpea / Status antioxidante e suas estratégias de aprimoramento para tolerância ao estresse hídrico no grão-de-bico

Water stress executes severe influences on the plant growth and development through modifying physio-chemical properties. Therefore, a field experiment was designed to evaluate the antioxidant status and their enhancements strategies for water stress tolerance in chickpea on loam and clay loam soils under agro-ecological conditions of Arid Zone Research Institute, Bahawalpur (29.3871 °N, 71.653 °E) and Cholistan farm near Derawer (28.19°N, 71.80°E) of Southern Punjab, Pakistan during winter 2014-15. Experimental treatments comprised of two chickpea cultivars i.e. Bhakhar 2011 (drought tolerant) and DUSHT (drought sensitive), two water stress levels i.e. water stress at flowering stage and water stress at flowering + pod formation + grain filling stage including well watered (control) and two exogenous application of osmoprotectants i.e. glycine betaine (GB) 20 ppm and proline 10 uM including distilled water (control). Results indicated that water stress at various growth stages adversely affects the growth, yield and quality attributes of both chickpea cultivars. Exogenous application of GB and proline improved the growth, yield and quality parameters of both chickpea cultivars even under water stress conditions. However, superior results were obtained with exogenously applied GB on Bhakhar 2011 under well-watered conditions. Similarly, foliar spray of GB on chickpea cultivar Bhakhar 2011 under stress at flowering + pod formation + grain filling stage produced maximum superoxide dismutase, peroxidase and catalase contents. These results suggested that application of GB mitigates the adverse effects of water stress and enhanced tolerance in chickpea mainly due to higher antioxidant enzymes activity, demonstrating the protective measures of plant cells in stress condition. Hence, antioxidants status might be a suitable method for illustrating water stress tolerance in chickpea.

O estresse hídrico exerce fortes influências no crescimento e no desenvolvimento das plantas, modificando as propriedades físico-químicas. Portanto, a presente atividade de pesquisa foi projetada para avaliar o status antioxidante e suas estratégias de aprimoramento para tolerância ao estresse hídrico no grão-de-bico em condições agroecológicas, no Instituto de Pesquisa da Zona Árida, Bahawalpur (29.3871 ° N, 71.653 ° E) e fazenda do Cholistan, perto de Derawer (28.19 ° N, 71,80 ° E), no sul de Punjab, Paquistão, durante Rabi 2014-15. Tratamentos experimentais compostos de dois genótipos de grão-de-bico, como Bhakhar 2011 (tolerante à seca) e DUSHT (sensível à seca), dois níveis de estresse hídrico, ou seja, estresse hídrico no estágio de floração, estresse hídrico na fase de floração e estresse hídrico na fase de floração + formação de vagem + estágio de enchimento de grãos, incluindo água bem controlada (controle) e duas aplicações exógenas de osmoprotetores, isto é, glicina betaína 20 ppm e prolina 10 uM, incluindo água destilada (controle). Os resultados indicaram que o estresse hídrico em vários estágios de crescimento afeta negativamente os atributos de crescimento, rendimento e qualidade de ambas as cultivares de grão-de-bico. A aplicação exógena de glicina betaína e prolina melhorou os parâmetros de crescimento, rendimento e qualidade de ambos os genótipos de grão- de-bico, mesmo sob condições de estresse hídrico. No entanto, resultados superiores foram obtidos com glicina betaína aplicada exogenamente em Bhakhar 2011, em condições bem regadas. Além disso, o spray foliar de glicina betaína na cultivar de grão-de-bico Bhakhar 2011, sob estresse na fase de floração + formação de vagem + enchimento de grãos, produziu o máximo de superóxido dismutase, peroxidase e catalase. Esses resultados sugeriram que a aplicação de glicina betaína atenua os efeitos adversos do estresse hídrico e aumenta a tolerância no grão-de- bico, principalmente pela maior atividade de enzimas antioxidantes, demonstrando medidas protetoras das células vegetais em condições de estresse. Portanto, o status de antioxidantes pode ser um método adequado para ilustrar a tolerância ao estresse hídrico no grão-de-bico.

The effect of adding L-ergothioneine in culture medium on blastocyst development rates

Background: Oocytes and embryos produce energy through mitochondrial oxidative phosphorylation by using oxygen. The membrane structure of the embryo is mostly composed of unsaturated fatty acids, for this reason DNA fragmentation, apoptosis, and abnormal gene expression are shaped as a result of the lipid peroxidation during culture. Oxidative stress (OS) is one of the most important problems affecting the in vitro embryo development. Antioxidant supplementation to the culture medium has been an alternative way to reduce cell damage caused by oxidative stress in in vitro embryo production systems. In this study, it was aimed to determine the effect of L-ergothioneine on blastocyst development when added to the culture medium. Materials, Methods & Results: The material of the study consisted of oocytes aspirated from the ovaries of Holstein cows which were collected from the local slaughterhouse. The ovaries were delivered to the laboratory within 2-3 h in a thermos which provided a constant temperature of 25-30o C with physiological saline (0.9%) containing antibiotics. All follicles in the 3-8 mm range on the ovaries were aspirated using 20 G needle. The collected follicle fluid was filtered through filters with a pore diameter of 70 micrometers. Cells remaining in the filter were washed with OPU medium and transferred to the petri dishes. Fluids were examined under a stereomicroscope. The cumulus-oocyte complexes were classified, and A and B quality oocytes were included to the study (A, B, C, and D quality COC). Oocytes aspirated from the ovaries and collected later on were incubated in IVM medium for 22 h. After maturation, it was taken into IVF medium, semen was added and incubated for 20-22 h. Possible zygotes to be taken to the culture stage were transferred to culture (IVC) drops with (L-ergothioneine 100 µL/mL (n:121) added and without antioxidant (control (n:124)), and kept in the incubator for 6-7 days. Evaluated on the 7th day differences in in vitro embryo production stages were evaluated with the Chi-square test. The study was run in 5 replicates each time, with at least 20 possible zygotes for per group being cultured. It was determined that 262 (87.33%) of a total of 300 oocytes undergoing in vitro maturation were matured. It was determined that 245 of the mature oocytes were fertilized (93.51%). The cleavage rates of the groups were determined as 87.60% and 86.29%, respectively. Eighty-two (33.47%) blastocysts were obtained from 245 zygotes taken into the culture stage, and the blastocyst rates in the groups were found to be 40.50% and 26.61%, respectively. After the study, it was determined that the statistical difference between L-ergothioneine and control in cleavage rates was insignificant (P > 0.05) and blastocyst rates was significant (P < 0.05) Discussion: Oxygen content above normal ratios can increase the formation of reactive oxygen species (ROS), particularly hydrogen peroxide (H2 O2 ), hydroxyl radical (HO·), and peroxyl radicals (ROO·). The increased rate of ROS negatively affects the success of IVP in mammalian embryos. It was observed that L-ergothioneine, which has high antioxidant activity, improved blastocyst development rates, and higher blastocyst rates could be achieved compared to the control group. By investigating the use of L-ergothioneine in different doses, it was thought that the dose with the highest antioxidant activity could be added to the culture medium in in vitro embryo production and more blastocysts could be produced.

Antioxidant status and their enhancements strategies for water stress tolerance in chickpea / Status antioxidante e suas estratégias de aprimoramento para tolerância ao estresse hídrico no grão-de-bico

Water stress executes severe influences on the plant growth and development through modifying physio-chemical properties. Therefore, a field experiment was designed to evaluate the antioxidant status and their enhancements strategies for water stress tolerance in chickpea on loam and clay loam soils under agro-ecological conditions of Arid Zone Research Institute, Bahawalpur (29.3871 °N, 71.653 °E) and Cholistan farm near Derawer (28.19°N, 71.80°E) of Southern Punjab, Pakistan during winter 2014-15. Experimental treatments comprised of two chickpea cultivars i.e. Bhakhar 2011 (drought tolerant) and DUSHT (drought sensitive), two water stress levels i.e. water stress at flowering stage and water stress at flowering + pod formation + grain filling stage including well watered (control) and two exogenous application of osmoprotectants i.e. glycine betaine (GB) 20 ppm and proline 10 uM including distilled water (control). Results indicated that water stress at various growth stages adversely affects the growth, yield and quality attributes of both chickpea cultivars. Exogenous application of GB and proline improved the growth, yield and quality parameters of both chickpea cultivars even under water stress conditions. However, superior results were obtained with exogenously applied GB on Bhakhar 2011 under well-watered conditions. Similarly, foliar spray of GB on chickpea cultivar Bhakhar 2011 under stress at flowering + pod formation + grain filling stage produced maximum superoxide dismutase, peroxidase and catalase contents. These results suggested that application of GB mitigates the adverse effects of water stress and enhanced tolerance in chickpea mainly due to higher antioxidant enzymes activity, demonstrating the protective measures of plant cells in stress condition. Hence, antioxidants status might be a suitable method for illustrating water stress tolerance in chickpea.

O estresse hídrico exerce fortes influências no crescimento e no desenvolvimento das plantas, modificando as propriedades físico-químicas. Portanto, a presente atividade de pesquisa foi projetada para avaliar o status antioxidante e suas estratégias de aprimoramento para tolerância ao estresse hídrico no grão-de-bico em condiçõesa groecológicas, no Instituto de Pesquisa da Zona Árida, Bahawalpur (29.3871 ° N, 71.653 ° E) e fazenda do Cholistan, perto de Derawer (28.19 ° N, 71,80 ° E), no sul de Punjab, Paquistão, durante Rabi 2014-15. Tratamentos experimentais compostos de dois genótipos de grão-de-bico, como Bhakhar 2011 (tolerante à seca) e DUSHT (sensível à seca), dois níveis de estresse hídrico, ou seja, estresse hídrico no estágio de floração, estresse hídrico na fase de floração e estresse hídrico na fase de floração + formação de vagem + estágio de enchimento de grãos, incluindo água bem controlada (controle) e duas aplicações exógenas de osmoprotetores, isto é, glicina betaína 20 ppm e prolina 10 uM, incluindo água destilada (controle). Os resultados indicaram que o estresse hídrico em vários estágios de crescimento afeta negativamente os atributos de crescimento, rendimento e qualidade de ambas as cultivares de grão-de-bico. A aplicação exógena de glicina betaína e prolina melhorou os parâmetros de crescimento, rendimento e qualidade de ambos os genótipos de grão- de-bico, mesmo sob condições de estresse hídrico. No entanto, resultados superiores foram obtidos com glicina betaína aplicada exogenamente em Bhakhar 2011, em condições bem regadas. Além disso, o spray foliar de glicina betaína na cultivar de grão-de-bico Bhakhar 2011, sob estresse na fase de floração + formação de vagem + enchimento de grãos, produziu o máximo de superóxido dismutase, peroxidase e catalase. Esses resultados sugeriram que a aplicação de glicina betaína atenua os efeitos adversos do estresse hídrico e aumenta a [...].

Antioxidant status and their enhancements strategies for water stress tolerance in chickpea / Status antioxidante e suas estratégias de aprimoramento para tolerância ao estresse hídrico no grão-de-bico

Water stress executes severe influences on the plant growth and development through modifying physio-chemical properties. Therefore, a field experiment was designed to evaluate the antioxidant status and their enhancements strategies for water stress tolerance in chickpea on loam and clay loam soils under agro-ecological conditions of Arid Zone Research Institute, Bahawalpur (29.3871 °N, 71.653 °E) and Cholistan farm near Derawer (28.19°N, 71.80°E) of Southern Punjab, Pakistan during winter 2014-15. Experimental treatments comprised of two chickpea cultivars i.e. Bhakhar 2011 (drought tolerant) and DUSHT (drought sensitive), two water stress levels i.e. water stress at flowering stage and water stress at flowering + pod formation + grain filling stage including well watered (control) and two exogenous application of osmoprotectants i.e. glycine betaine (GB) 20 ppm and proline 10 uM including distilled water (control). Results indicated that water stress at various growth stages adversely affects the growth, yield and quality attributes of both chickpea cultivars. Exogenous application of GB and proline improved the growth, yield and quality parameters of both chickpea cultivars even under water stress conditions. However, superior results were obtained with exogenously applied GB on Bhakhar 2011 under well-watered conditions. Similarly, foliar spray of GB on chickpea cultivar Bhakhar 2011 under stress at flowering + pod formation + grain filling stage produced maximum superoxide dismutase, peroxidase and catalase contents. These results suggested that application of GB mitigates the adverse effects of water stress and enhanced tolerance in chickpea mainly due to higher antioxidant enzymes activity, demonstrating the protective measures of plant cells in stress condition. Hence, antioxidants status might be a suitable method for illustrating water stress tolerance in chickpea.(AU)

O estresse hídrico exerce fortes influências no crescimento e no desenvolvimento das plantas, modificando as propriedades físico-químicas. Portanto, a presente atividade de pesquisa foi projetada para avaliar o status antioxidante e suas estratégias de aprimoramento para tolerância ao estresse hídrico no grão-de-bico em condiçõesa groecológicas, no Instituto de Pesquisa da Zona Árida, Bahawalpur (29.3871 ° N, 71.653 ° E) e fazenda do Cholistan, perto de Derawer (28.19 ° N, 71,80 ° E), no sul de Punjab, Paquistão, durante Rabi 2014-15. Tratamentos experimentais compostos de dois genótipos de grão-de-bico, como Bhakhar 2011 (tolerante à seca) e DUSHT (sensível à seca), dois níveis de estresse hídrico, ou seja, estresse hídrico no estágio de floração, estresse hídrico na fase de floração e estresse hídrico na fase de floração + formação de vagem + estágio de enchimento de grãos, incluindo água bem controlada (controle) e duas aplicações exógenas de osmoprotetores, isto é, glicina betaína 20 ppm e prolina 10 uM, incluindo água destilada (controle). Os resultados indicaram que o estresse hídrico em vários estágios de crescimento afeta negativamente os atributos de crescimento, rendimento e qualidade de ambas as cultivares de grão-de-bico. A aplicação exógena de glicina betaína e prolina melhorou os parâmetros de crescimento, rendimento e qualidade de ambos os genótipos de grão- de-bico, mesmo sob condições de estresse hídrico. No entanto, resultados superiores foram obtidos com glicina betaína aplicada exogenamente em Bhakhar 2011, em condições bem regadas. Além disso, o spray foliar de glicina betaína na cultivar de grão-de-bico Bhakhar 2011, sob estresse na fase de floração + formação de vagem + enchimento de grãos, produziu o máximo de superóxido dismutase, peroxidase e catalase. Esses resultados sugeriram que a aplicação de glicina betaína atenua os efeitos adversos do estresse hídrico e aumenta a [...].(AU)

Influence of foliar-applied glycinebetaine on growth, yield and some key physiological and biochemical attributes of grape (Vitis vinifera L) / Influência da glicinabetaína aplicada via foliar no crescimento, rendimento e alguns atributos fisiológicos e bioquímicos essenciais da uva (Vitis vinifera L)

Glycinebetaine (GB) plays an imperative role to mitigate the opposing impact of several environmental stresses in various crops. The objective of this investigation was to scrutinize the response of grape (Vitis vinifera L.) to the foliar application of GB. Diverse levels of GB (0, 10, 20 and 30 mM) were applied three times with fifteen days interval to grape cv. King's Ruby. All levels of GB improved the physiological, biochemical and growth attributes of the grape. As compared to control treatment, foliar spray of GB applied at 30 mM increased the number of leaves/vine, leaf area and number of newly emerged branches/plant by 20.55%, 12.28% and 48.13%, respectively. The pH of grape juice was decreased by increasing GB levels. However, total soluble solids, total chlorophyll contents, grape yield and photosynthesis rate was recorded maximum with foliar spray of GB applied at 30 mM. The regression model predicted that each increment in GB level enhanced the number of leaves/plant and the number of newly emerged branches/plant by 1.8 and 0.7, respectively. Thus, it is concluded that exogenous application GB applied at 30 mM might be more useful to obtain the optimum growth and quality of grapes.

A glicina betaína (GB) desempenha um papel fundamental para mitigar o impacto oposto de vários estresses ambientais em várias culturas agrícolas. O objetivo desta pesquisa foi examinar a resposta da uva (Vitis vinifera L.) à aplicação foliar de GB. Diversos níveis de GB (0, 10, 20 e 30 mM) foram aplicados três vezes com intervalo de 15 dias à videira cv. King's Ruby. Todos os níveis de GB melhoraram os atributos fisiológicos, bioquímicos e de crescimento da uva. Em comparação ao tratamento controle, a pulverização foliar de GB aplicada à 30 mM aumentou o número de folhas / videira, área foliar e número de ramos / planta recém-emergidos em 20,55%, 12,28% e 48,13%, respectivamente. O pH do suco de uva diminuiu com o aumento dos níveis de GB. No entanto, sólidos solúveis totais, conteúdo de clorofila total, rendimento de uva e taxa de fotossíntese foram registrados no máximo com pulverização foliar de GB aplicada a 30 mM. O modelo de regressão previu que cada incremento no nível de GB aumentava o número de folhas/planta e o número de ramos/planta recém-emergidos em 1,8 e 0,7, respectivamente. Assim, conclui-se que a aplicação exógena GB aplicada à 30 mM pode ser mais útil para obter o crescimento e a qualidade ideais das uvas.

Influence of foliar-applied glycinebetaine on growth, yield and some key physiological and biochemical attributes of grape (Vitis vinifera L) / Influência da glicinabetaína aplicada via foliar no crescimento, rendimento e alguns atributos fisiológicos e bioquímicos essenciais da uva (Vitis vinifera L)

Glycinebetaine (GB) plays an imperative role to mitigate the opposing impact of several environmental stresses in various crops. The objective of this investigation was to scrutinize the response of grape (Vitis vinifera L.) to the foliar application of GB. Diverse levels of GB (0, 10, 20 and 30 mM) were applied three times with fifteen days interval to grape cv. King's Ruby. All levels of GB improved the physiological, biochemical and growth attributes of the grape. As compared to control treatment, foliar spray of GB applied at 30 mM increased the number of leaves/vine, leaf area and number of newly emerged branches/plant by 20.55%, 12.28% and 48.13%, respectively. The pH of grape juice was decreased by increasing GB levels. However, total soluble solids, total chlorophyll contents, grape yield and photosynthesis rate was recorded maximum with foliar spray of GB applied at 30 mM. The regression model predicted that each increment in GB level enhanced the number of leaves/plant and the number of newly emerged branches/plant by 1.8 and 0.7, respectively. Thus, it is concluded that exogenous application GB applied at 30 mM might be more useful to obtain the optimum growth and quality of grapes.(AU)

A glicina betaína (GB) desempenha um papel fundamental para mitigar o impacto oposto de vários estresses ambientais em várias culturas agrícolas. O objetivo desta pesquisa foi examinar a resposta da uva (Vitis vinifera L.) à aplicação foliar de GB. Diversos níveis de GB (0, 10, 20 e 30 mM) foram aplicados três vezes com intervalo de 15 dias à videira cv. King's Ruby. Todos os níveis de GB melhoraram os atributos fisiológicos, bioquímicos e de crescimento da uva. Em comparação ao tratamento controle, a pulverização foliar de GB aplicada à 30 mM aumentou o número de folhas / videira, área foliar e número de ramos / planta recém-emergidos em 20,55%, 12,28% e 48,13%, respectivamente. O pH do suco de uva diminuiu com o aumento dos níveis de GB. No entanto, sólidos solúveis totais, conteúdo de clorofila total, rendimento de uva e taxa de fotossíntese foram registrados no máximo com pulverização foliar de GB aplicada a 30 mM. O modelo de regressão previu que cada incremento no nível de GB aumentava o número de folhas/planta e o número de ramos/planta recém-emergidos em 1,8 e 0,7, respectivamente. Assim, conclui-se que a aplicação exógena GB aplicada à 30 mM pode ser mais útil para obter o crescimento e a qualidade ideais das uvas.(AU)

Respostas da aplicação foliar de glicina betaína em cana-de-açúcar submetida a estresse hídrico e reidratação / Responses of the leaf application of glycine betaine on sugarcane submitted to drought stress and rehydration

O crescimento das plantas de cana-de-açúcar é bastante reduzido devido à ocorrência de déficit hídrico, o que acaba afetando a produção. Diante disso, vem sendo utilizadas diferentes estratégias para atenuar condições de estresse, como a aplicação exógena de glicina betaína. Com este trabalho, objetivou-se avaliar a taxa de crescimento e a massa seca de cana-de-açúcar aplicada glicina betaína, e submetida adéficit hídrico e reidratação. O experimento foi realizado em casa de vegetação com seis tratamentos: G0I - plantas sem glicina betaína com irrigação adequada, G0E - plantas sem glicina betaína e estresse hídrico, G1I - plantas com uma aplicação de glicina betaína e irrigação adequada, G1E - plantas com umaaplicação de glicina betaína e estresse hídrico, G2I - plantas com duas aplicações de glicina betaína e irrigação adequada, G2E - plantas com duas aplicações de glicina betaína e estresse hídrico. Aos seis dias após o estresse as plantas foram reidratadas. As taxas relativas de crescimento das plantas de cana-de-açúcar reduziram com o estresse hídrico. No entanto, estas reduções foram minimizadas com a aplicação foliar de glicina betaína, principalmente, com a reidratação em que a taxa relativa de crescimento reduziu apenas 19 e 18,4%, respectivamente, em G1 e G2, enquanto em G0 a redução foi de 37,2%. A glicina betaína também minimizou as reduções na produção de massa seca total sob estresse hídrico, com reduções de 5,8 e 5,9% em G1 e G2, respectivamente, enquanto em G0 foi de 15,1%. A aplicação foliar de glicina betaína melhora a taxa relativa de crescimento de plantas de cana-de-açúcar sob estresse hídrico, sobretudo após a reidratação o que diminui os efeitos negativos do estresse sobre a produção de massa seca.

The growth of sugarcane plants is greatly reduced due to the occurrence of drought stress, which ultimately affects production. Therefore, different strategies have been used to attenuate stress conditions, such as the exogenous application of glycine betaine. The objective of this work was to evaluate the growth rate and dry mass of sugarcane that received a glycine betaine application and was submitted todrought stress and rehydration. The experiment was carried out in a greenhouse with six treatments: G0I - plants without glycine betaine with adequate irrigation, G0E - plants without glycine betaine and drought stress, G1I - plants with an application of glycine betaine and adequate irrigation, G1E - plants with an application of glycine betaine and drought stress, G2I - plants with two applications of glycine betaine and adequate irrigation, G2E - plants with two applications of glycine betaine and drought stress. Six days after the stress, the plants were rehydrated. The relative growth rates of sugarcane plants decreased with the drought stress. However, these reductions were partially minimized with the foliar application of glycine betaine, mainly with the rehydration, with the relative growth rate decreasing by only 19% and 18.4%, respectively, in G1 and G2, while the reduction was 37.2% in G0. Glycine betaine also minimized reductions in total dry mass production under drought stress, with decreases of 5.8% and 5.9% in G1 and G2, respectively, while it was 15.1% in G0. The leaf application of glycine betaine improves the relative growth rate of sugarcane plants under drought stress, especially after rehydration, which decreases the negative effects of stress on dry mass production.

Respostas da aplicação foliar de glicina betaína em cana-de-açúcar submetida a estresse hídrico e reidratação / Responses of the leaf application of glycine betaine on sugarcane submitted to drought stress and rehydration

O crescimento das plantas de cana-de-açúcar é bastante reduzido devido à ocorrência de déficit hídrico, o que acaba afetando a produção. Diante disso, vem sendo utilizadas diferentes estratégias para atenuar condições de estresse, como a aplicação exógena de glicina betaína. Com este trabalho, objetivou-se avaliar a taxa de crescimento e a massa seca de cana-de-açúcar aplicada glicina betaína, e submetida adéficit hídrico e reidratação. O experimento foi realizado em casa de vegetação com seis tratamentos: G0I - plantas sem glicina betaína com irrigação adequada, G0E - plantas sem glicina betaína e estresse hídrico, G1I - plantas com uma aplicação de glicina betaína e irrigação adequada, G1E - plantas com umaaplicação de glicina betaína e estresse hídrico, G2I - plantas com duas aplicações de glicina betaína e irrigação adequada, G2E - plantas com duas aplicações de glicina betaína e estresse hídrico. Aos seis dias após o estresse as plantas foram reidratadas. As taxas relativas de crescimento das plantas de cana-de-açúcar reduziram com o estresse hídrico. No entanto, estas reduções foram minimizadas com a aplicação foliar de glicina betaína, principalmente, com a reidratação em que a taxa relativa de crescimento reduziu apenas 19 e 18,4%, respectivamente, em G1 e G2, enquanto em G0 a redução foi de 37,2%. A glicina betaína também minimizou as reduções na produção de massa seca total sob estresse hídrico, com reduções de 5,8 e 5,9% em G1 e G2, respectivamente, enquanto em G0 foi de 15,1%. A aplicação foliar de glicina betaína melhora a taxa relativa de crescimento de plantas de cana-de-açúcar sob estresse hídrico, sobretudo após a reidratação o que diminui os efeitos negativos do estresse sobre a produção de massa seca.(AU)

The growth of sugarcane plants is greatly reduced due to the occurrence of drought stress, which ultimately affects production. Therefore, different strategies have been used to attenuate stress conditions, such as the exogenous application of glycine betaine. The objective of this work was to evaluate the growth rate and dry mass of sugarcane that received a glycine betaine application and was submitted todrought stress and rehydration. The experiment was carried out in a greenhouse with six treatments: G0I - plants without glycine betaine with adequate irrigation, G0E - plants without glycine betaine and drought stress, G1I - plants with an application of glycine betaine and adequate irrigation, G1E - plants with an application of glycine betaine and drought stress, G2I - plants with two applications of glycine betaine and adequate irrigation, G2E - plants with two applications of glycine betaine and drought stress. Six days after the stress, the plants were rehydrated. The relative growth rates of sugarcane plants decreased with the drought stress. However, these reductions were partially minimized with the foliar application of glycine betaine, mainly with the rehydration, with the relative growth rate decreasing by only 19% and 18.4%, respectively, in G1 and G2, while the reduction was 37.2% in G0. Glycine betaine also minimized reductions in total dry mass production under drought stress, with decreases of 5.8% and 5.9% in G1 and G2, respectively, while it was 15.1% in G0. The leaf application of glycine betaine improves the relative growth rate of sugarcane plants under drought stress, especially after rehydration, which decreases the negative effects of stress on dry mass production.(AU)

Use of Betaine in Post-Hatch Feed for Broiler Chicks

Post-hatch delayed placement damages the physical and physiological development of broiler chicks. This study was designed to find adequate levels of betaine inclusion in pre-hatching and pre-starter feed, in order to minimize the negative effects of post-hatch delayed placement on broiler chicks. Newly-hatched chicks were allotted in a completely randomized design, with five treatments, five replicates of ten birds each. Five dietetic levels of betaine (control, 0.070, 0.130, 0.200 and 0.260%) were used in the pre-starter ration, offered to the chicks in the transporting box and during the pre-starter phase. Performance, yolk sac retraction, plasma glucose concentration, weight and histomorphometry of the small intestine were evaluated, after 24 hours of feed access and at 7 days of age. A metabolic trial was performed from seven to ten days of age. Betaine supplementation linearly influenced the chicks ileum crypt depth after 24 hours in the transportation box. There was a quadratic effect, with an increase in feed intake up to 0.152% betaine supplementation. There was an improvement in the quality of the jejunum with betaine supplementation above 0.1%. The metabolizable coefficient of the ether extract was improved until reaching 0.163% of betaine supplementation. Betaine supplementation around 0.150% increases feed intake, the use of ether extract and interferes with the intestinal villi of chicks at seven days of age.(AU)

Use of Betaine in Post-Hatch Feed for Broiler Chicks

Post-hatch delayed placement damages the physical and physiological development of broiler chicks. This study was designed to find adequate levels of betaine inclusion in pre-hatching and pre-starter feed, in order to minimize the negative effects of post-hatch delayed placement on broiler chicks. Newly-hatched chicks were allotted in a completely randomized design, with five treatments, five replicates of ten birds each. Five dietetic levels of betaine (control, 0.070, 0.130, 0.200 and 0.260%) were used in the pre-starter ration, offered to the chicks in the transporting box and during the pre-starter phase. Performance, yolk sac retraction, plasma glucose concentration, weight and histomorphometry of the small intestine were evaluated, after 24 hours of feed access and at 7 days of age. A metabolic trial was performed from seven to ten days of age. Betaine supplementation linearly influenced the chicks ileum crypt depth after 24 hours in the transportation box. There was a quadratic effect, with an increase in feed intake up to 0.152% betaine supplementation. There was an improvement in the quality of the jejunum with betaine supplementation above 0.1%. The metabolizable coefficient of the ether extract was improved until reaching 0.163% of betaine supplementation. Betaine supplementation around 0.150% increases feed intake, the use of ether extract and interferes with the intestinal villi of chicks at seven days of age.

Can the Fine Wheat Bran be a Betaine Source in Poultry Diets?

The effect of fine wheat bran (FWB) as a methyl donor source on performance, metabolism, body composition and blood traits of growing broilers was studied. Three hundred and twenty broilers from eight to 28 d of age, distributed in a randomized block design, with five treatments and eight replicates of eight animals each were used. The experimental diets were: NC, formulated with 72% of the Met+Cys requirement; Met, formulated with 85% of the Met+Cys equivalents by DL-methionine addition; Bet, formulated with 85% of the Met+Cys equivalents by anhydrous betaine addition; Fwb-, formulated with 72% of the Met+Cys requirement and 20% FWB; and Fwb+, formulated with 85% of the Met+Cys requirement and 20% FWB. Feed intake was reduced (p 0.05) by FWB inclusion but the feed conversion ratio was the same (p>0.05) between the positive control diets. Supplementation of DL-methionine and anhydrous betaine showed the same (p>0.05) metabolizability of nutrients. Treatments with higher DL-methionine levels (Met and Fwb+) promoted more weight of feathers (p 0.05). Animals fed with FWB showed the lowest (p 0.05) body gains. In conclusion, FWB inclusion did not promote methyl radicals supply.(AU)

Can the Fine Wheat Bran be a Betaine Source in Poultry Diets?

The effect of fine wheat bran (FWB) as a methyl donor source on performance, metabolism, body composition and blood traits of growing broilers was studied. Three hundred and twenty broilers from eight to 28 d of age, distributed in a randomized block design, with five treatments and eight replicates of eight animals each were used. The experimental diets were: NC, formulated with 72% of the Met+Cys requirement; Met, formulated with 85% of the Met+Cys equivalents by DL-methionine addition; Bet, formulated with 85% of the Met+Cys equivalents by anhydrous betaine addition; Fwb-, formulated with 72% of the Met+Cys requirement and 20% FWB; and Fwb+, formulated with 85% of the Met+Cys requirement and 20% FWB. Feed intake was reduced (p 0.05) by FWB inclusion but the feed conversion ratio was the same (p>0.05) between the positive control diets. Supplementation of DL-methionine and anhydrous betaine showed the same (p>0.05) metabolizability of nutrients. Treatments with higher DL-methionine levels (Met and Fwb+) promoted more weight of feathers (p 0.05). Animals fed with FWB showed the lowest (p 0.05) body gains. In conclusion, FWB inclusion did not promote methyl radicals supply.

Effects of Different Anti-Stressors on Growth, Serum Chemistry and Meat Quality Attributes of Japanese Quail

The aim of the present study was to evaluate the effect of different anti-stressors on growth performance, carcass traits, bloodchemistry and meat quality attributes of broiler Japanese quail. For this purpose, a total of 1,875 quail chicks were procured and arranged according to completely randomized design, birds were divided into 5 treatment groups having 5 replicates of 75 birds each. The treatments consisted of four anti-stressors i.e., synthetic anti-stressors (Vitamin C and Betaine) and natural anti-stressors (Turmeric and Chia Seed) along with a control group. Birds diets were supplemented with vitamin C, betaine, turmeric and chia seed @ 600 mg/kg, 700 mg /kg, 300 mg/kg and 7,000 mg/kg, respectively. After four weeks, 10 birds per treatment were slaughtered (Halal method), de-feathered, eviscerated and their carcass traits, serum chemistry and meat quality attributes were calculated. Birds supplemented with betaine revealed significantly (p0.05) lower feed intake, glucose, cholesterol, H:L ratio, better weight gain, times of gain, FCR and highest anti-oxidant assay and total viable count. However, carcass traits, processing traits and blood cortisol level did not differ (p>0.05) among the treatment groups. In conclusion, addition of anti-stressors (especially betaine) in the diet of growing Japanese quail had positive influence on growth and serum chemistry.(AU)

Effects of Different Anti-Stressors on Growth, Serum Chemistry and Meat Quality Attributes of Japanese Quail

The aim of the present study was to evaluate the effect of different anti-stressors on growth performance, carcass traits, bloodchemistry and meat quality attributes of broiler Japanese quail. For this purpose, a total of 1,875 quail chicks were procured and arranged according to completely randomized design, birds were divided into 5 treatment groups having 5 replicates of 75 birds each. The treatments consisted of four anti-stressors i.e., synthetic anti-stressors (Vitamin C and Betaine) and natural anti-stressors (Turmeric and Chia Seed) along with a control group. Birds diets were supplemented with vitamin C, betaine, turmeric and chia seed @ 600 mg/kg, 700 mg /kg, 300 mg/kg and 7,000 mg/kg, respectively. After four weeks, 10 birds per treatment were slaughtered (Halal method), de-feathered, eviscerated and their carcass traits, serum chemistry and meat quality attributes were calculated. Birds supplemented with betaine revealed significantly (p0.05) lower feed intake, glucose, cholesterol, H:L ratio, better weight gain, times of gain, FCR and highest anti-oxidant assay and total viable count. However, carcass traits, processing traits and blood cortisol level did not differ (p>0.05) among the treatment groups. In conclusion, addition of anti-stressors (especially betaine) in the diet of growing Japanese quail had positive influence on growth and serum chemistry.

The effects of Post-Hatch Feeding with Betaine on the Intestinal Development of Broiler Chickens

ABSTRACT The capacity of the chicken intestinal tract to digest and absorb nutrients is not fully developed on the day of hatch. The aim of this study was to investigate the role of betaine on the intestinal development of broiler chickens, including brush border enzyme activities indices and morphological changes during the first week of growth. Fiftyone-day-old Ross 308 broiler chickens were randomly distributed into five groups: control (C), low methionine(LM), low methionine plus betaine (LM+B), betaine 1 (B1) and betaine 2 (B2). Betaine was dissolved with a concentration of 500 mg/L in the drinking water of LM+B and B1groups and a concentration of 1000 mg/L in the B2 group. Histological assessment showed lower duodenal crypt depth and villi height/crypt depth ratio in B1 as compared to C. Jejunal villi height of B2birds was significantly higher than that of C birds, whereas jejunal crypt depth values of both B2 and LM birds were higher relative to LM+B and C birds. Betaine-fed groups had significantly a thicker ileal muscularis mucosa layer than C and LM groups. Duodenal and jejunal g-glutamyl transferase activity was significantly higher in B2birds in LM birds. Alkaline phosphatase activity in all three segments of the small intestine was significantly higher in the LM birds than in other groups. Jejunal alanine aminopeptidase activity in LM birds was significantly higher than in other groups, particularly in B1 and B2. The results suggest that betaine may be a promising agent to promote the intestinal development of broilers fed low-methionine or standard diets.

The effects of Post-Hatch Feeding with Betaine on the Intestinal Development of Broiler Chickens

The capacity of the chicken intestinal tract to digest and absorb nutrients is not fully developed on the day of hatch. The aim of this study was to investigate the role of betaine on the intestinal development of broiler chickens, including brush border enzyme activities indices and morphological changes during the first week of growth. Fiftyone-day-old Ross 308 broiler chickens were randomly distributed into five groups: control (C), low methionine(LM), low methionine plus betaine (LM+B), betaine 1 (B1) and betaine 2 (B2). Betaine was dissolved with a concentration of 500 mg/L in the drinking water of LM+B and B1groups and a concentration of 1000 mg/L in the B2 group. Histological assessment showed lower duodenal crypt depth and villi height/crypt depth ratio in B1 as compared to C. Jejunal villi height of B2birds was significantly higher than that of C birds, whereas jejunal crypt depth values of both B2 and LM birds were higher relative to LM+B and C birds. Betaine-fed groups had significantly a thicker ileal muscularis mucosa layer than C and LM groups. Duodenal and jejunal g-glutamyl transferase activity was significantly higher in B2birds in LM birds. Alkaline phosphatase activity in all three segments of the small intestine was significantly higher in the LM birds than in other groups. Jejunal alanine aminopeptidase activity in LM birds was significantly higher than in other groups, particularly in B1 and B2. The results suggest that betaine may be a promising agent to promote the intestinal development of broilers fed low-methionine or standard diets.(AU)

The effects of Post-Hatch Feeding with Betaine on the Intestinal Development of Broiler Chickens

The capacity of the chicken intestinal tract to digest and absorb nutrients is not fully developed on the day of hatch. The aim of this study was to investigate the role of betaine on the intestinal development of broiler chickens, including brush border enzyme activities indices and morphological changes during the first week of growth. Fiftyone-day-old Ross 308 broiler chickens were randomly distributed into five groups: control (C), low methionine(LM), low methionine plus betaine (LM+B), betaine 1 (B1) and betaine 2 (B2). Betaine was dissolved with a concentration of 500 mg/L in the drinking water of LM+B and B1groups and a concentration of 1000 mg/L in the B2 group. Histological assessment showed lower duodenal crypt depth and villi height/crypt depth ratio in B1 as compared to C. Jejunal villi height of B2birds was significantly higher than that of C birds, whereas jejunal crypt depth values of both B2 and LM birds were higher relative to LM+B and C birds. Betaine-fed groups had significantly a thicker ileal muscularis mucosa layer than C and LM groups. Duodenal and jejunal g-glutamyl transferase activity was significantly higher in B2birds in LM birds. Alkaline phosphatase activity in all three segments of the small intestine was significantly higher in the LM birds than in other groups. Jejunal alanine aminopeptidase activity in LM birds was significantly higher than in other groups, particularly in B1 and B2. The results suggest that betaine may be a promising agent to promote the intestinal development of broilers fed low-methionine or standard diets.

Effects of Dietary Protein Level and Betaine Supplementation on Nutrient Digestibility and Performance of Japanese Quails

ABSTRACT This study investigated the effects of dietary protein levels and betaine supplementation on nutrient digestibility and performance of Japanese quails. In total, 765 Japanese quails were randomly assigned to a 3×3 factorial arrangement, with five replicates of 17 quails each. Three basal diets were formulated to contain three crude protein levels (16.5, 18.0, and 19.5%). Each protein level was supplemented with 0, 0.06, and 0.12% betaine. The diet with 16.5% dietary crude protein with no betaine supplementation resulted in the lowest crude fiber digestibility, while the 18.0% CP diet supplemented with 0.12% betaine generated the highest crude fiber digestibility (p 0.05). The diets with 18.0 and 19.5% crude protein increased crude fiber digestibility, but reduced ether extract digestibility (p 0.01). Moreover, betaine supplementation increased dry matter, crude protein, crude fiber, and crude ash (p 0.01) digestibility and tended to increase ether extract digestibility (p=0.09). The increase in egg weight for the 18.0 and 19.5% protein diets was correlated with a decrease in feed conversion ratio (p 0.05). However, feed intake and egg production were not affected by protein levels. Betaine supplementation enhanced all performance variables (p 0.01). The diets with 18.0 and 19.5% crude protein resulted in heavier yolks and eggshells than the 16.5% crude protein diet (p 0.05), whereas betaine supplementation increased yolk, albumen, and eggshell weight (p 0.01). The 18.0 and 19.5% protein diets produced similar responses in most evaluated parameters. Laying Japanese quails can be fed diets with 18.0% crude protein. Moreover, betaine supplementation provided several benefits, and particularly improved nutrient digestibility, performance, and egg quality.

Effects of Dietary Protein Level and Betaine Supplementation on Nutrient Digestibility and Performance of Japanese Quails

ABSTRACT This study investigated the effects of dietary protein levels and betaine supplementation on nutrient digestibility and performance of Japanese quails. In total, 765 Japanese quails were randomly assigned to a 3×3 factorial arrangement, with five replicates of 17 quails each. Three basal diets were formulated to contain three crude protein levels (16.5, 18.0, and 19.5%). Each protein level was supplemented with 0, 0.06, and 0.12% betaine. The diet with 16.5% dietary crude protein with no betaine supplementation resulted in the lowest crude fiber digestibility, while the 18.0% CP diet supplemented with 0.12% betaine generated the highest crude fiber digestibility (p 0.05). The diets with 18.0 and 19.5% crude protein increased crude fiber digestibility, but reduced ether extract digestibility (p 0.01). Moreover, betaine supplementation increased dry matter, crude protein, crude fiber, and crude ash (p 0.01) digestibility and tended to increase ether extract digestibility (p=0.09). The increase in egg weight for the 18.0 and 19.5% protein diets was correlated with a decrease in feed conversion ratio (p 0.05). However, feed intake and egg production were not affected by protein levels. Betaine supplementation enhanced all performance variables (p 0.01). The diets with 18.0 and 19.5% crude protein resulted in heavier yolks and eggshells than the 16.5% crude protein diet (p 0.05), whereas betaine supplementation increased yolk, albumen, and eggshell weight (p 0.01). The 18.0 and 19.5% protein diets produced similar responses in most evaluated parameters. Laying Japanese quails can be fed diets with 18.0% crude protein. Moreover, betaine supplementation provided several benefits, and particularly improved nutrient digestibility, performance, and egg quality.(AU)