Elevated CO2 and warming change the nutrient status and use efficiency of Panicum maximum Jacq

Panicum maximum Jacq. 'Mombaça' (Guinea grass) is a C4 forage grass widely used in tropical pastures for cattle feeding. In this study, we evaluated the isolated and combined effects of warming and elevated CO2 concentration [CO2] during summer on nutrient content, nutrient accumulation, n...

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Veröffentlicht in:	PloS one 2020, Vol.15 (3), p.e0223937
Hauptverfasser:	Carvalho, Juliana Mariano, Barreto, Rafael Ferreira, Prado, Renato de Mello, Habermann, Eduardo, Branco, Roberto Botelho Ferraz, Martinez, Carlos Alberto
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Sprache:	eng
Schlagworte:	Accumulation Air temperature Ambient temperature Animal Feed Animals Biology and Life Sciences Calcium - analysis Carbon dioxide Carbon Dioxide - chemistry Carbon Dioxide - pharmacology Carbon dioxide atmospheric concentrations Carbon dioxide concentration Carbon dioxide in the atmosphere Cattle Climate Change Combined treatment Earth Sciences Ecology and Environmental Sciences Efficiency Emissions Fertilizers Flowers & plants Grasses Greenhouse gases Hot Temperature Irrigation Medicine and Health Sciences Nitrogen - analysis Nutrient concentrations Nutrient content Nutrient status Nutrients Nutrients - analysis Nutritional requirements Osmolar Concentration Panicum - drug effects Panicum - growth & development Panicum maximum Pasture Pastures Photosynthesis Physical Sciences Plant growth Potassium Soil - chemistry Temperature Time dependence Water
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description	Panicum maximum Jacq. 'Mombaça' (Guinea grass) is a C4 forage grass widely used in tropical pastures for cattle feeding. In this study, we evaluated the isolated and combined effects of warming and elevated CO2 concentration [CO2] during summer on nutrient content, nutrient accumulation, nutrient use efficiency and growth of P. maximum under field conditions. Field temperature and [CO2] were controlled by temperature free-air controlled enhancement and free-air CO2 enrichment systems, respectively. We tested two levels of canopy temperature: ambient temperature (aT) and 2°C above ambient temperature (eT), as well as two levels of atmospheric [CO2]: ambient [CO2] (aCO2) and 200 ppm above ambient CO2 (eCO2). The experiment was established in a completely randomized design with four replications, in a 2×2 factorial scheme. After pasture establishment, plants were exposed to the treatments during 30 days, with evaluations at 9, 16, 23 and 30 days after the treatments started. Results were dependent on the time of the evaluation, but in the last evaluation (beginning of the grazing), contents of N, K, Mg and S did not change as a function of treatments. However, P decreased as a function of warming under both levels of [CO2], and Ca increased under [eCO2] combined with warming. There was an increase in root dry mass under warming treatment. Combined treatment increased N, Ca and S accumulation without a corresponding increase in the use efficiency of these same nutrients, indicating that the fertiliser dose should increase in the next decades due to climate change. Our short-term results in young and well fertilized pasture suggest that under the combination of [eCO2] and eT conditions, P. maximum productivity will increase and the nutritional requirement for N, Ca and S will also increase.
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'Mombaça' (Guinea grass) is a C4 forage grass widely used in tropical pastures for cattle feeding. In this study, we evaluated the isolated and combined effects of warming and elevated CO2 concentration [CO2] during summer on nutrient content, nutrient accumulation, nutrient use efficiency and growth of P. maximum under field conditions. Field temperature and [CO2] were controlled by temperature free-air controlled enhancement and free-air CO2 enrichment systems, respectively. We tested two levels of canopy temperature: ambient temperature (aT) and 2°C above ambient temperature (eT), as well as two levels of atmospheric [CO2]: ambient [CO2] (aCO2) and 200 ppm above ambient CO2 (eCO2). The experiment was established in a completely randomized design with four replications, in a 2×2 factorial scheme. After pasture establishment, plants were exposed to the treatments during 30 days, with evaluations at 9, 16, 23 and 30 days after the treatments started. 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'Mombaça' (Guinea grass) is a C4 forage grass widely used in tropical pastures for cattle feeding. In this study, we evaluated the isolated and combined effects of warming and elevated CO2 concentration [CO2] during summer on nutrient content, nutrient accumulation, nutrient use efficiency and growth of P. maximum under field conditions. Field temperature and [CO2] were controlled by temperature free-air controlled enhancement and free-air CO2 enrichment systems, respectively. We tested two levels of canopy temperature: ambient temperature (aT) and 2°C above ambient temperature (eT), as well as two levels of atmospheric [CO2]: ambient [CO2] (aCO2) and 200 ppm above ambient CO2 (eCO2). The experiment was established in a completely randomized design with four replications, in a 2×2 factorial scheme. After pasture establishment, plants were exposed to the treatments during 30 days, with evaluations at 9, 16, 23 and 30 days after the treatments started. 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'Mombaça' (Guinea grass) is a C4 forage grass widely used in tropical pastures for cattle feeding. In this study, we evaluated the isolated and combined effects of warming and elevated CO2 concentration [CO2] during summer on nutrient content, nutrient accumulation, nutrient use efficiency and growth of P. maximum under field conditions. Field temperature and [CO2] were controlled by temperature free-air controlled enhancement and free-air CO2 enrichment systems, respectively. We tested two levels of canopy temperature: ambient temperature (aT) and 2°C above ambient temperature (eT), as well as two levels of atmospheric [CO2]: ambient [CO2] (aCO2) and 200 ppm above ambient CO2 (eCO2). The experiment was established in a completely randomized design with four replications, in a 2×2 factorial scheme. After pasture establishment, plants were exposed to the treatments during 30 days, with evaluations at 9, 16, 23 and 30 days after the treatments started. Results were dependent on the time of the evaluation, but in the last evaluation (beginning of the grazing), contents of N, K, Mg and S did not change as a function of treatments. However, P decreased as a function of warming under both levels of [CO2], and Ca increased under [eCO2] combined with warming. There was an increase in root dry mass under warming treatment. Combined treatment increased N, Ca and S accumulation without a corresponding increase in the use efficiency of these same nutrients, indicating that the fertiliser dose should increase in the next decades due to climate change. Our short-term results in young and well fertilized pasture suggest that under the combination of [eCO2] and eT conditions, P. maximum productivity will increase and the nutritional requirement for N, Ca and S will also increase.</abstract><cop>United States</cop><pub>Public Library of Science</pub><pmid>32168346</pmid><doi>10.1371/journal.pone.0223937</doi><orcidid>https://orcid.org/0000-0002-1170-5386</orcidid><oa>free_for_read</oa></addata></record>
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subjects	Accumulation Air temperature Ambient temperature Animal Feed Animals Biology and Life Sciences Calcium - analysis Carbon dioxide Carbon Dioxide - chemistry Carbon Dioxide - pharmacology Carbon dioxide atmospheric concentrations Carbon dioxide concentration Carbon dioxide in the atmosphere Cattle Climate Change Combined treatment Earth Sciences Ecology and Environmental Sciences Efficiency Emissions Fertilizers Flowers & plants Grasses Greenhouse gases Hot Temperature Irrigation Medicine and Health Sciences Nitrogen - analysis Nutrient concentrations Nutrient content Nutrient status Nutrients Nutrients - analysis Nutritional requirements Osmolar Concentration Panicum - drug effects Panicum - growth & development Panicum maximum Pasture Pastures Photosynthesis Physical Sciences Plant growth Potassium Soil - chemistry Temperature Time dependence Water
title	Elevated CO2 and warming change the nutrient status and use efficiency of Panicum maximum Jacq
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