Matheus de Paula Reis scite author profile

Extreme environmental conditions are a major challenge in livestock production. Changes in climate, particularly those that contribute to weather extremes like drought or excessive humidity, may result in reduced performance and reproduction and could compromise the animal’s immune function. Animal survival within extreme environmental conditions could be in response to natural selection and to artificial selection for production traits that over time together may leave selection signatures in the genome. The aim of this study was to identify selection signatures that may be involved in the adaptation of indigenous chickens from two different climatic regions (Sri Lanka = Tropical; Egypt = Arid) and in non-indigenous chickens that derived from human migration events to the generally tropical State of São Paulo, Brazil. To do so, analyses were conducted using fixation index (Fst) and hapFLK analyses. Chickens from Brazil (n = 156), Sri Lanka (n = 92), and Egypt (n = 96) were genotyped using the Affymetrix Axiom®600k Chicken Genotyping Array. Pairwise Fst analyses among countries did not detect major regions of divergence between chickens from Sri Lanka and Brazil, with ecotypes/breeds from Brazil appearing to be genetically related to Asian-Indian (Sri Lanka) ecotypes. However, several differences were detected in comparisons of Egyptian with either Sri Lankan or Brazilian populations, and common regions of difference on chromosomes 2, 3 and 8 were detected. The hapFLK analyses for the three separate countries suggested unique regions that are potentially under selection on chromosome 1 for all three countries, on chromosome 4 for Sri Lankan, and on chromosomes 3, 5, and 11 for the Egyptian populations. Some of identified regions under selection with hapFLK analyses contained genes such as TLR3, SOCS2, EOMES, and NFAT5 whose biological functions could provide insights in understanding adaptation mechanisms in response to arid and tropical environments.

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Effect of Bacillus subtilis (DSM 17299) on performance, digestibility, intestine morphology, and pH in broiler chickens

Reis

Fassani

Júnior

et al. 2017

Journal of Applied Poultry Research

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Salinity in rose production

Reis

Figueiredo²,

Paiva³

et al. 2016

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The rose is one of the most important ornamental plants in the world. However, the cultivation systems used for roses often impose salt stress. Saline conditions occur naturally in some regions or by human activity in others with use of low quality water or excessive fertilizer application. In general, roses are considered sensitive to salinity. However, tolerance levels can be different among roses species and cultivars. Therefore, studies are needed that take into account characteristics of each species and how the exposure to salinity occurs. Management of water and nutrients can be important tools for mitigating the effects of high salt concentrations. Also, advances in biotechnology can be used for a better understanding of the physiological responses to salinity and to develop more salt tolerant rose cultivars. Thus, this paper aims to review the progress made and future prospects of salinity tolerance in commercial rose production. Keywords: salt stress, floriculture, water quality, nutrition RESUMO Salinidade na produção de rosas A rosa é uma das mais importantes plantas ornamentais do mundo. Os sistemas de cultivos utilizados para rosas muitas vezes impõem à cultura a condições de estresse salino. A salinidade pode ocorrer de forma natural ou antrópica, pelo uso de água de baixa qualidade ou excesso de fertilizantes. Em geral, as rosas são consideradas sensíveis a salinidade, no entanto, os níveis de tolerância diferem entre espécies e cultivares. Sendo assim são necessários estudos que considerem as características de cada espécie e a forma como ocorre essa exposição à salinidade. O manejo da água e nutrientes podem ser ferramentas importantes para mitigar os efeitos de concentrações de sal. Além disso, os avanços na área da biotecnologia podem ser utilizados para melhor entendimento das respostas fisiológicas e para desenvolver cultivares mais tolerantes de rosas. Diante disso, este artigo visa a revisar os avanços alcançados e perspectivas futuras na tolerância a salinidade na produção comercial de rosas. Palavras-chave: estresse salino, floricultura, qualidade da água, nutrição (1)

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Rações com níveis reduzidos de proteína bruta, cálcio e fósforo com fitase e aminoácidos para frangos de corte

Gomide¹,

Rodrigues²,

Bertechini³

et al. 2011

R. Bras. Zootec.

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RESUMO -Em experimentos de desempenho e metabolismo, avaliaram-se os efeitos do fornecimento de rações com níveis reduzidos de proteína bruta, cálcio e fósforo disponível sobre o desempenho, as características de carcaça, o conteúdo de cinzas na tíbia, o balanço e a retenção de nitrogênio e fósforo de frangos de corte nos períodos de 8 a 21 e 8 a 35 dias de idade. Em cada uma destas fases no ensaio de desempenho, foram utilizadas 30 e 25 aves por unidade experimental e, no ensaio de metabolismo, cinco e três aves, respectivamente, em delineamento inteiramente casualizado, com seis repetições. Os tratamentos constituíram-se de rações com 21% proteína bruta sem fitase (controle), formuladas com níveis nutricionais recomendados nas tabelas brasileiras, e rações com 21, 20, 19 e 18% de proteína bruta com fitase (8 a 21 dias) e, no período de 8 a 35 dias, ração com 20% proteína bruta sem fitase (controle), e rações com 20, 19, 18 e 17% de proteína bruta, com fitase. Treatments consisted of diet with 21% crude protein without phytase (control), formulated with nutritional levels recommended on the Brazilian tables, and diets with 21, 20, 19 and 18% crude protein with phytase (8 to 21 days) and from 8 to 35 days, the control diet had 20% crude protein without phytase (control), and others diets with 20, 19, 18, 17% crude protein, with phytase.In the diets with phytase (80 g of Ronozyme NP(M) phytase per ton of diet), the level of available phosphorus was reduced in 0.15 and the calcium in 0.30 percentage points in relation to the control diet. No effect was observed with the reduction of nutrients on feed intake, weight gain, or feed conversion in either phase or for the study of carcass characteristics to the 35 days. However, higher abdominal fat percentage was observed when the broilers were fed diet with lower protein level. The excretion of nitrogen and phosphorus decreased when birds received diets with reduced levels of these nutrients. Ash percentage in the tibia was not influenced by treatments. It is possible to reduce protein level, available phosphorus, and calcium of the diets in up to 3, 0.15 and 0.30 percentage points when the diets are supplemented with phytase and amino acids, respectively.

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Performance, Growth Curves and Carcass Yield of Four Strains of Broiler Chicken

Nogueira

Reis

Carvalho

et al. 2019

Braz. J. Poult. Sci.

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Partitioning the efficiency of utilization of amino acids in growing broilers: Multiple linear regression and multivariate approaches

et al. 2018

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Determining the efficiency of amino acid (AA) utilization in growing animals is crucial to estimate their requirement accurately. In broiler chickens, the composition of AA in feather is different from feather-free body and the proportion of feathers will change along broiler’s growth, which may impact the efficiency of utilization on AA consumed. Therefore, in order to establish a method that predicts the efficiency of utilization for feather-free body and feather, two approaches were evaluated: a multiple linear regression and a multivariate analysis. Additionally, a new factorial model was proposed to predict AA requirements in broiler chickens. Data from 13 trials that evaluated the requirements for lysine (Lys), sulphur AA (SAA), threonine (Thr), and valine (Val) in male broilers were used for the analyses. Both methods of analysis were consistent in showing that the efficiency of utilization in feather-free body and feather were different. Using multiple linear regression, the values of efficiency of utilization estimated in feather-free body were 0.68, 0.72, 0.81, 0.79 (mg of amino acid deposited / mg of amino acid consumed above maintenance) and in feather were 0.58, 0.77, 0.78, and 1.57 (mg/mg) for Lys, SAA, Thr, and Val, respectively. Applying the multivariate approach, the corresponding predicted values were 0.68, 0.67, 4.23, 0.27 (mg/mg) in feather-free body and 1.16, 0.86, 0.16, and 1.10 (mg/mg) in feather, respectively. According to the results, efficiency of utilization may be related, to some extent, on the concentration determined in each tissue. The uncertainty around the amount of AA consumed for gain directed to feather-free body or feather deposition could be a limitation for multivariate analyses. The results indicated that multiple linear regression predictions may be better estimates of utilization efficiency. However, more studies are needed to elucidate the effect of age on deposition and partitioning of dietary AA in different parts of the broiler.

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In vivo description of body growth and chemical components of egg-laying pullets

et al. 2019

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Response of Nile tilapia (Oreochromis niloticus) to lysine: Performance, body composition, maintenance and efficiency of utilization

et al. 2021

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