The effects of infrequent drinking intervals on the productivity of Boran cattle

Nicholson, M. J.

January 1987

No description available.

636

Cattle dehydration tolerance

Ecophysiological and agronomic responses of perennial grass species under water stress / Respostas ecofisiológicas e agronômicas de espécies de gramíneas perenes sob estresse hídrico

Beloni, Tatiane

19 October 2015

The total annual forage production of tropical grasslands in the Brazilian Central area is expected to increase, however, some studies also predict a higher variability of forage production between and within years. In the future, maintenance of many pastures áreas will probably depend on the use of technology and increased productivity, seeking a competitive advantage concerning other activities, or even on its relocation to marginal áreas where forage grasses will be more suitable to abiotic factors. The water stress, both by flooding and drought, may reduce the production and survival of grasses. The objective was to identify the strategies that some genotypes of Paspalum and Urochloa genus use to cope with the flooding and/or water deficiency in the soil. Two greenhouse experiments were conducted: 1 - morphological and physiological characteristics, survival rate and recovery index in five genotypes of Paspalum sp. (BRS Guará, BGP 289, BGP 293, BGP 402 and BGP 397) and U. brizantha cv. Marandu were evaluated under three water conditions (flooded, drought and control); 2 - dehydration tolerance and dehydration avoidance of three cultivars of Urochoa (\'Marandu\', \'BRS Paiaguás\' and \'Basilisk\') and a cultivar Mediterranean Dactylis glomerata L. cv. Medly. In experiment 1, the genotypes of Paspalum sp., especially BGP 289, BGP 402, BGP 397 and cv. Marandu previously submitted water déficit, presented high tiller survival rates after rehydration. The cv. Marandu and BGP 289 access were not tolerant to flooding, presenting a low tiller survival rate and root recovery index. The BGP 293 access was not resistant to flooding, but it was able to survive periods up to 28 days under water depth. The accesses of Paspalum BRS Guará, BGP 402 and BGP 397 presented resistance mechanisms and survival to flooding, related to a high concentration of chlorophyll in the leaf, leaf biomass, and root recovery and tiller survival after a recovery period under water regular condition. In experiment 2, the distinction of cultivars was in accordance with the resource-use strategy. Cultivars of Urochloa were less tolerant to dehydration than cv. Medly. But the most productive Urochloa cultivars (Marandu and Basilisk) further delayed dehydration due to high investment in the root system, and consequently were less dehydration tolerant, with less survival rates under severe drought. The cv. BRS Paiaguás was less productive under regular irrigation than other Urochloa cultivars, but under drought conditions it is closer to the cv. Medly, being highly dehydration tolerant, and presenting high survival rates under severe drought and dehydration avoidance strategies with roots elongation along the soil profile during the drought period. There are differences in responses to other deficit and flooding between and within the Paspalum and Urochloa genus morphophysiological traits used in this study are relevant for the understanding of the mechanisms and discrimination among genotypes. / A partir de predições de futuros impactos climáticos, é esperado um aumento na produção anual total de forragem tropical, contudo estudos também predizem aumento da variação da produção entre e dentro dos anos. Diante desses cenários, é imprescindível buscar vantagens competitivas e o conhecimento do grau de tolerância a estresse abióticos de gramíneas tropicais. O estresses hídrico, tanto por excesso quanto por deficiência, pode reduzir a produção e a sobrevivência da planta forrageira. Assim, objetivou-se identificar as estratégias que alguns genótipos do gênero Paspalum e Urochloa utilizam para lidar com o encharcamento e/ou com a deficiência hídrica no solo. Foram conduzidos dois experimentos em casa-de-vegetação: 1 - avaliou-se características morfofisiológicas, taxa de sobrevivência e índice de recuperação em cinco genótipos de Paspalum sp. (BRS Guará, BGP 289, BGP 293, BGP 402 e BGP 397) e U. brizantha cv. Marandu sob três condições hídricas (alagado, déficit e controle), em vasos pequenos; 2 - mensurou-se em pequenos vasos a tolerância a desidratação e em longos tubos o atraso a desidratação de três cultivares de Urochoa (\'Marandu\', \'BRS Paiaguás\' e \'Basilisk\') e uma cultivar mediterrânea de Dactylis glomerata L. cv. Medly, submetidos a condições sem limitação hídrica e posteriormente sob seca prolongada. Sob déficit hídrico, os genótipos de Paspalum sp., especialmente o BGP 289, o BGP 402 e o BGP 397, e a cv. Marandu, apresentaram altas taxas de sobrevivência de perfilhos após reidratação. A cv. Marandu e o acesso BGP 289 não são tolerantes ao alagamento, apresentaram baixas taxas de sobrevivência e de recuperação radicular. O acesso BGP 293 não é resistente ao alagamento, porém é capaz de sobreviver a períodos de até 28 dias sob lâmina d\'água. Os acessos de Paspalum BRS Guará, BGP 402 e BGP 397 apresentam mecanismos de resistência e sobrevivência ao alagamento, relacionados à alta concentração de clorofila na folha, de biomassa de folhas, e de recuperação radicular e sobrevivência de perfilhos após período de recuperação sob condição hídrica regular. No experimento 2, a distinção dos cultivares foi de acordo com a estratégia de uso dos recursos. Cultivares de Urochloa são menos tolerantes a desidratação que a cv. Medly. Mas as cultivares de Urochloa mais produtivas (Marandu e Basilisk) atrasaram mais a desidratação, devido ao alto investimento no sistema radicular, e consequentemente foram menos tolerantes a desidratação, com memores taxas de sobrevivência sob seca severa. A cv. BRS Paiaguás é menos produtiva sob irrigação regular em comparação as outras cultivares de Urochloa, mas sob seca aproximou-se mais da cv. Medly, mostrando-se altamente tolerante a desidratação, com altas taxas de sobrevivência sob seca severa, além de apresentar estratégia de atraso a desidratação com o alongamento de raízes ao longo do perfil do solo durante a seca. Existem diferenças entre e dentro de espécies dos gêneros Paspalum e Urochloa em relação as respostas sob duas formas de estresse hídrico. As caraterísticas morfofisiológicas utilizadas neste estudo auxiliaram na compreensão dos mecanismos de resposta ao estresse hídrico e na discriminação dos genótipos.

Brachiaria

Abiotic stress

Alagamento

Atraso a desidratação

Brachiaria

Dehydration delay

Dehydration tolerance

Estresse abiótico

Flooding

Forage Grass

Plantas forrageiras

Root system

Sistema radicular

Tolerância a desidratação

INTRASPECIFIC VARIATION IN DEHYDRATION TOLERANCE: INSIGHTS FROM THE TROPICAL PLANT <em>MARCHANTIA INFLEXA</em>

Marks, Rose A.

01 January 2019

Plants are threatened by global change, increasing variability in weather patterns, and associated abiotic stress. Consequently, there is an urgent need to enhance our ability to predict plant community dynamics, shifts in species distributions, and physiological responses to environmental challenges. By building a fundamental understanding of plant stress tolerance, it may be possibly to protect the ecological services, economic industries, and communities that depend on plants. Dehydration tolerance (DhT) is an important mechanism of water stress tolerance with promising translational applications. Here, I take advantage natural variation in DhT to gain a deeper insight into this complex trait. In addition, I address questions related to the causes and consequences of sexual dimorphisms in DhT. Understanding sexual dimorphisms in stress tolerance is critical because these dimorphisms can drive spatial segregation of the sexes, biased sex ratios, and may ultimately reduce sexual reproduction and population persistence. This work takes an integrated approach, addressing DhT on multiple scales from ecology, to physiology, to genomics in the tropical liverwort Marchantia inflexa. Initially, I tested for correlations between DhT and environmental dryness, sex differences in DhT, and genetic vs. plastic contributions to DhT variability. I found that patterns of variation in DhT are associated with environmental variability, including complex sexual dimorphisms, and derive from a combination of plasticity and genetic differences in DhT. Subsequently, I leveraged the variability in DhT to identify candidate DhT enhancing genes. In M. inflexa intraspecific differences in DhT are impacted by baseline variability among plants, as well as unique gene expression responses initiated during drying. In parallel, I assembled a draft genome assembly for M. inflexa, which was employed to investigate questions of sex chromosome evolution and sexual dimorphism in DhT. Finally, the bacteriome of M. inflexa was characterized and found to be extremely diverse and variable. Collectively, this work adds to a growing understanding of DhT and highlights the importance of sampling approaches that seek to comprehensively describe variability in DhT. I detected complex patterns of variability in DhT among populations and the sexes of M. inflexa, which were used to gain insight into the genetic intricacies of DhT.

intraspecific variation

dehydration tolerance

Marchantia inflexa

genomics

eco-physiology

Bryology

Computational Biology

Ecology and Evolutionary Biology

Genetics and Genomics

Integrative Biology

Plant Sciences

Ecophysiological and agronomic responses of perennial grass species under water stress / Respostas ecofisiológicas e agronômicas de espécies de gramíneas perenes sob estresse hídrico

Tatiane Beloni

19 October 2015

The total annual forage production of tropical grasslands in the Brazilian Central area is expected to increase, however, some studies also predict a higher variability of forage production between and within years. In the future, maintenance of many pastures áreas will probably depend on the use of technology and increased productivity, seeking a competitive advantage concerning other activities, or even on its relocation to marginal áreas where forage grasses will be more suitable to abiotic factors. The water stress, both by flooding and drought, may reduce the production and survival of grasses. The objective was to identify the strategies that some genotypes of Paspalum and Urochloa genus use to cope with the flooding and/or water deficiency in the soil. Two greenhouse experiments were conducted: 1 - morphological and physiological characteristics, survival rate and recovery index in five genotypes of Paspalum sp. (BRS Guará, BGP 289, BGP 293, BGP 402 and BGP 397) and U. brizantha cv. Marandu were evaluated under three water conditions (flooded, drought and control); 2 - dehydration tolerance and dehydration avoidance of three cultivars of Urochoa (\'Marandu\', \'BRS Paiaguás\' and \'Basilisk\') and a cultivar Mediterranean Dactylis glomerata L. cv. Medly. In experiment 1, the genotypes of Paspalum sp., especially BGP 289, BGP 402, BGP 397 and cv. Marandu previously submitted water déficit, presented high tiller survival rates after rehydration. The cv. Marandu and BGP 289 access were not tolerant to flooding, presenting a low tiller survival rate and root recovery index. The BGP 293 access was not resistant to flooding, but it was able to survive periods up to 28 days under water depth. The accesses of Paspalum BRS Guará, BGP 402 and BGP 397 presented resistance mechanisms and survival to flooding, related to a high concentration of chlorophyll in the leaf, leaf biomass, and root recovery and tiller survival after a recovery period under water regular condition. In experiment 2, the distinction of cultivars was in accordance with the resource-use strategy. Cultivars of Urochloa were less tolerant to dehydration than cv. Medly. But the most productive Urochloa cultivars (Marandu and Basilisk) further delayed dehydration due to high investment in the root system, and consequently were less dehydration tolerant, with less survival rates under severe drought. The cv. BRS Paiaguás was less productive under regular irrigation than other Urochloa cultivars, but under drought conditions it is closer to the cv. Medly, being highly dehydration tolerant, and presenting high survival rates under severe drought and dehydration avoidance strategies with roots elongation along the soil profile during the drought period. There are differences in responses to other deficit and flooding between and within the Paspalum and Urochloa genus morphophysiological traits used in this study are relevant for the understanding of the mechanisms and discrimination among genotypes. / A partir de predições de futuros impactos climáticos, é esperado um aumento na produção anual total de forragem tropical, contudo estudos também predizem aumento da variação da produção entre e dentro dos anos. Diante desses cenários, é imprescindível buscar vantagens competitivas e o conhecimento do grau de tolerância a estresse abióticos de gramíneas tropicais. O estresses hídrico, tanto por excesso quanto por deficiência, pode reduzir a produção e a sobrevivência da planta forrageira. Assim, objetivou-se identificar as estratégias que alguns genótipos do gênero Paspalum e Urochloa utilizam para lidar com o encharcamento e/ou com a deficiência hídrica no solo. Foram conduzidos dois experimentos em casa-de-vegetação: 1 - avaliou-se características morfofisiológicas, taxa de sobrevivência e índice de recuperação em cinco genótipos de Paspalum sp. (BRS Guará, BGP 289, BGP 293, BGP 402 e BGP 397) e U. brizantha cv. Marandu sob três condições hídricas (alagado, déficit e controle), em vasos pequenos; 2 - mensurou-se em pequenos vasos a tolerância a desidratação e em longos tubos o atraso a desidratação de três cultivares de Urochoa (\'Marandu\', \'BRS Paiaguás\' e \'Basilisk\') e uma cultivar mediterrânea de Dactylis glomerata L. cv. Medly, submetidos a condições sem limitação hídrica e posteriormente sob seca prolongada. Sob déficit hídrico, os genótipos de Paspalum sp., especialmente o BGP 289, o BGP 402 e o BGP 397, e a cv. Marandu, apresentaram altas taxas de sobrevivência de perfilhos após reidratação. A cv. Marandu e o acesso BGP 289 não são tolerantes ao alagamento, apresentaram baixas taxas de sobrevivência e de recuperação radicular. O acesso BGP 293 não é resistente ao alagamento, porém é capaz de sobreviver a períodos de até 28 dias sob lâmina d\'água. Os acessos de Paspalum BRS Guará, BGP 402 e BGP 397 apresentam mecanismos de resistência e sobrevivência ao alagamento, relacionados à alta concentração de clorofila na folha, de biomassa de folhas, e de recuperação radicular e sobrevivência de perfilhos após período de recuperação sob condição hídrica regular. No experimento 2, a distinção dos cultivares foi de acordo com a estratégia de uso dos recursos. Cultivares de Urochloa são menos tolerantes a desidratação que a cv. Medly. Mas as cultivares de Urochloa mais produtivas (Marandu e Basilisk) atrasaram mais a desidratação, devido ao alto investimento no sistema radicular, e consequentemente foram menos tolerantes a desidratação, com memores taxas de sobrevivência sob seca severa. A cv. BRS Paiaguás é menos produtiva sob irrigação regular em comparação as outras cultivares de Urochloa, mas sob seca aproximou-se mais da cv. Medly, mostrando-se altamente tolerante a desidratação, com altas taxas de sobrevivência sob seca severa, além de apresentar estratégia de atraso a desidratação com o alongamento de raízes ao longo do perfil do solo durante a seca. Existem diferenças entre e dentro de espécies dos gêneros Paspalum e Urochloa em relação as respostas sob duas formas de estresse hídrico. As caraterísticas morfofisiológicas utilizadas neste estudo auxiliaram na compreensão dos mecanismos de resposta ao estresse hídrico e na discriminação dos genótipos.

Brachiaria

Alagamento

Atraso a desidratação

Estresse abiótico

Plantas forrageiras

Sistema radicular

Tolerância a desidratação

Abiotic stress

Brachiaria

Dehydration delay

Dehydration tolerance

Flooding

Forage Grass

Root system