The differential genetic signatures related to climatic landscapes for jaguars and pumas on a continental scale     

Marina ZANIN  Noa GONZALEZ-BORRAJO  Cuauhtémoc CHÁVEZ  Yamel RUBIO  Bart HARMSEN  Claudia KELLER  Pablo VILLALVA  Ana Carolina SRBEK-ARAUJO  Leonora Pires COSTA  Francisco PALOMARES 《Integrative zoology》2021,16(1):2-18

Modern and paleoclimate changes may have altered species dynamics by shifting species’ niche suitability over space and time. We analyze whether the current genetic structure and isolation of the two large American felids, jaguar (Panthera onca) and puma (Puma concolor), are mediated by changes in climatic suitability and connection routes over modern and paleoclimatic landscapes. We estimate species distribution under 5 climatic landscapes (modern, Holocene, last maximum glaciations [LMG], average suitability, and climatic instability) and correlate them with individuals’ genetic isolation through causal modeling on a resemblance matrix. Both species exhibit genetic isolation patterns correlated with LMG climatic suitability, suggesting that these areas may have worked as “allele refuges.” However, the jaguar showed higher vulnerability to climate changes, responding to modern climatic suitability and connection routes, whereas the puma showed a continuous and gradual transition of genetic variation. Despite differential responsiveness to climate change, both species are subjected to the climatic effects on genetic configuration, which may make them susceptible to future climatic changes, since these are progressing faster and with higher intensity than changes in the paleoclimate. Thus, the effects of climatic changes should be considered in the design of conservation strategies to ensure evolutionary and demographic processes mediated by gene flow for both species.  相似文献   

Pinus pseudostrobus assisted migration trial with rain exclusion: maintaining Monarch Butterfly Biosphere Reserve forest cover in an environment affected by climate change     

Gómez-Pineda  Erika  Blanco-García  Arnulfo  Lindig-Cisneros  Roberto  O’Neill  Greg A.  Lopez-Toledo  Leonel  Sáenz-Romero  Cuauhtémoc 《New Forests》2021,52(6):995-1010

New Forests - In the Trans-Mexican Volcanic Belt in central-western Mexico, drought stress causes the decline of two of the most ecologically and economically important conifers: Abies religiosa...  相似文献   

Improvement of Chia Seeds with Antioxidant Activity,GABA, Essential Amino Acids,and Dietary Fiber by Controlled Germination Bioprocess     

Mario Armando Gómez-Favela  Roberto Gutiérrez-Dorado  Edith Oliva Cuevas-Rodríguez  Vicente Adrián Canizalez-Román  Claudia del Rosario León-Sicairos  Jorge Milán-Carrillo  Cuauhtémoc Reyes-Moreno 《Plant foods for human nutrition (Dordrecht, Netherlands)》2017,72(4):345-352

Chia (Salvia hispanica L.) plant is native from southern Mexico and northern Guatemala. Their seeds are a rich source of bioactive compounds which protect consumers against chronic diseases. Germination improves functionality of the seeds due to the increase in the bioactive compounds and associated antioxidant activity. The purpose of this study was to obtain functional flour from germinated chia seeds under optimized conditions with increased antioxidant activity, phenolic compounds, GABA, essential amino acids, and dietary fiber with respect to un-germinated chia seeds. The effect of germination temperature and time (GT = 20–35 °C, Gt = 10–300 h) on protein, lipid, and total phenolic contents (PC, LC, TPC, respectively), and antioxidant activity (AoxA) was analyzed by response surface methodology as optimization tool. Chia seeds were germinated inside plastic trays with absorbent paper moisturized with 50 mL of 100 ppm sodium hypochlorite dissolution. The sprouts were dried (50 °C/8 h) and ground to obtain germinated chia flours (GCF). The prediction models developed for PC, LC, TPC, and AoxA showed high coefficients of determination, demonstrating their adequacy to explain the variations in experimental data. The highest values of PC, LC, TPC, and AoxA were obtained at two different optimal conditions (GT = 21 °C/Gt = 157 h; GT = 33 °C/Gt = 126 h). Optimized germinated chia flours (OGCF) had higher PC, TPC, AoxA, GABA, essential amino acids, calculated protein efficiency ratio (C-PER), and total dietary fiber (TDF) than un-germinated chia seed flour. The OGCF could be utilized as a natural source of proteins, dietary fiber, GABA, and antioxidants in the development of new functional beverages and foods.  相似文献   

Increasing the Antioxidant Activity,Total Phenolic and Flavonoid Contents by Optimizing the Germination Conditions of Amaranth Seeds     

Janitzio X. K. Perales-Sánchez  Cuauhtémoc Reyes-Moreno  Mario A. Gómez-Favela  Jorge Milán-Carrillo  Edith O. Cuevas-Rodríguez  Angel Valdez-Ortiz  Roberto Gutiérrez-Dorado 《Plant foods for human nutrition (Dordrecht, Netherlands)》2014,69(3):196-202

The aim of this study was to optimize the germination conditions of amaranth seeds that would maximize the antioxidant activity (AoxA), total phenolic (TPC), and flavonoid (TFC) contents. To optimize the germination bioprocess, response surface methodology was applied over three response variables (AoxA, TPC, TFC). A central composite rotable experimental design with two factors [germination temperature (GT), 20–45?ºC; germination time (Gt), 14–120 h] in five levels was used; 13 treatments were generated. The amaranth seeds were soaked in distilled water (25 °C/6 h) before germination. The sprouts from each treatment were dried (50 °C/8 h), cooled, and ground to obtain germinated amaranth flours (GAF). The best combination of germination bioprocess variables for producing optimized GAF with the highest AoxA [21.56 mmol trolox equivalent (TE)/100 g sample, dw], TPC [247.63 mg gallic acid equivalent (GAE)/100 g sample, dw], and TFC [81.39 mg catechin equivalent (CAE)/100 g sample, dw] was GT?=?30?ºC/Gt?=?78 h. The germination bioprocess increased AoxA, TPC, and TFC in 300–470, 829, and 213 %, respectively. The germination is an effective strategy to increase the TPC and TFC of amaranth seeds for enhancing functionality with improved antioxidant activity.  相似文献   

Chemical composition and antispasmodic effect of Casimiroa pringlei essential oil on rat uterus     

Ponce-Monter H  Campos MG  Pérez S  Pérez C  Zavala M  Macías A  Oropeza M  Cárdenas N 《Fitoterapia》2008,79(6):446-450

The Casimiroa pringlei essential oil was analyzed to determine its chemical composition. Its effect on rat uterine smooth muscle was studied and compared with verapamil. Pure commercial piperitone, eucalyptol, and alpha-terpineol, the major constituents of C. pringlei essential oil, were tested on the uterine tonic contraction induced by high-potassium depolarizing solution (KCl 60 mM).  相似文献   

Germination in Optimal Conditions as Effective Strategy to Improve Nutritional and Nutraceutical Value of Underutilized Mexican Blue Maize Seeds     

Chavarín-Martínez  Christian Denisse  Gutiérrez-Dorado  Roberto  Perales-Sánchez  Janitzio Xiomara Korina  Cuevas-Rodríguez  Edith Oliva  Milán-Carrillo  Jorge  Reyes-Moreno  Cuauhtémoc 《Plant foods for human nutrition (Dordrecht, Netherlands)》2019,74(2):192-199

Plant Foods for Human Nutrition - Germination of grains is a bioprocess of emerging interest to improve nutritional and nutraceutical profile of cereals in a natural way. The aim of this work was...  相似文献   

Genetic parameters for seedling growth in Pinus pseudostrobus families under different competitive environments     

Víctor Hugo Cambrón-Sandoval  Nahum M. Sánchez-Vargas  Cuauhtémoc Sáenz-Romero  J. Jesús Vargas-Hernández  María Luisa España-Boquera  Yvonne Herrerías-Diego 《New Forests》2013,44(2):219-232

Pinus pseudostrobus Lindl. is a widely distributed species in Mexico that also occurs in Guatemala, Honduras and El Salvador and has been tested outside its natural range in Brazil, Chile, Colombia, New Zealand, South Africa and Venezuela. Due to its great potential, it is necessary to select genotypes capable of increasing its production in the shortest possible time through genetic improvement strategies, where individuals are subjected to conditions forcing them to express their growth potential in advance. The objectives of the present study were to evaluate the genetic variation among half-sib progenies and to estimate heritability (h ² ) of stem height (SH) and diameter (SD) for seedlings grown under different competitive conditions in a common garden trial. A split-plot experimental design with four replications and three competitive environments (treatments) was used: (I) low inter-family competition (0.25 × 0.12 m), (II) high inter-family competition (0.12 × 0.06 m), and (III) high intra-family competition; 13 half-sib families were assessed, carrying out monthly evaluations for 10 months. Estimated h ² at individual and family-means levels for both SH and SD varied among competitive environments. For conditions I and II, a trend towards increasing h ² with age of seedlings was shown, but for condition III, a reverse trend was observed (values close to zero). High genetic stability in SH performance was found in both I and II, and II and III, pairs of environments, as measured by the type-B genetic correlation (0.70 ≤ r _B  ≤ 1.0), but it tended to decrease after 9 months, when competition increased; genetic stability in SD was lower (0.20 ≤ r _B  ≤ 0.80) in both pairs of the environments that were sampled. It was concluded that the competition conditions used in field trials for genotype evaluation may significantly affect the variance components, estimation of genetic parameters and genotype stability.  相似文献