Examinando por Materia "Conservation"

Mostrando 1 - 6 de 6

Agromorphological characterization of cacao (Theobroma cacao L.) accessions from the germplasm bank of the National Institute of Agrarian Innovation, Peru
(Elsevier, 2022-10-04) Vásquez García, Jheiner; Santos Peláez, Julio César; Malqui Ramos, Roiber; Vigo Mestanza, Carmen Natividad; Alvarado Chuqui, Wigoberto; Bobadilla Rivera, Leidy Gheraldine
Agromorphological characterization of cacao accessions in Peru is currently an important tool in the conservation and genetic improvement of cacao germplasm. The objective of this study was to carry out the morphological and agronomic characterization of 113 cacao accessions from the Huarangopampa germplasm bank. Tree, leaf, flower, fruit and seed descriptors were used. The data collected were processed by descriptive statistics using multivariate techniques. Five groups were formed according to similar characteristics. The accessions of group 1 are vigorous trees with an pod index of 19.27 pods/kg of seeds; the groups that presented better differential characteristics were group 2 with erect tree architecture, intermediate vigorousness, purple seed color and pod index of 20.07 pods/kg of seeds and group 3, which had the highest number of accessions with the lowest pod index of 18.77 pods/kg of seeds, besides being vigorous trees and having purple seeds. On the other hand, group 4 presented a particular characteristic of white seed color and high pod indexes with 22.11 pods/kg of seeds. Finally, group 5 accessions were characterized by intermediate tree architecture and vigor with an pod index of 21.3 pods/kg of seeds. The morphoagronomic characterization constitutes a first advance in the identification of cacaos with potential for genetic improvement and advances in the Peruvian chocolate industry.
Caracterización agromorfológica de accesiones de Phaseolus spp., en la región Amazonas, Perú
(Universidad Centroccidental Lisandro Alvarado (UCLA), 2024-05-01) Vásquez García, Jheiner; Vilca Valqui, Nuri Carito; Malqui Ramos, Roiber; Fernández, Elizabeth; Duarez Vera, Edwin; Ayala, Rosmery
El Perú cuenta con una alta diversidad genética de leguminosas andinas, especialmente del género Phaseolus. Su identificación a través de descriptores agromorfológicos es trascendental para impulsar su conservación y desarrollar estudios de mejoramiento genético. Bajo este escenario, el objetivo del presente trabajo fue caracterizar morfológica y agronómicamente 58 accesiones de frijol (Phaseolus spp) depositadas en el banco de germoplasma del Instituto Nacional de Innovación Agraria del Perú. Para ello, se utilizaron 24 descriptores cuantitativos y 18 cualitativos que se evaluaron en la fenología de cada accesión. El análisis de conglomerados y de correspondencias múltiples, permitió identificar la formación de cuatro grupos en función de sus características semejantes. El mayor número de accesiones se localizaron en el tercer y cuarto grupo. Sin embargo, las siete accesiones que conformaron el segundo grupo, exhibieron características promisorias por presentar alta productividad (2777,86 kg•ha-1), con semillas blancas, de aceptables dimensiones, con una germinación epigea temprana (10 días), hojas ovado-lanceoladas de crecimiento indeterminado (174,79 cm de altura de planta) que desarrollan numerosas guías. Además, mostraron una floración prolongada (33,86 días) con pétalos rosados y blancos, que dan origen a un mayor número de vainas (66,71 por planta) de color verde hasta alcanzar su madurez fisiológica. Estas son cualidades que las convierten en fuente valiosa para la implementación apropiada de futuros programas de mejoramiento genético.
Challenges and opportunities of genetic improvement in alpacas and llamas in Peru
(Wageningen Academic Publishers, 2018-02-16) Gutierrez, G.; Gutierrez, J.P.; Huanca Mamani, Teodosio; Wurzinger, M.
Alpacas and llamas play an important role in the livelihood of many rural families in the High Andes of Peru. The census of 2012 indicates a population of 3 million alpacas and 746,269 llamas. Both species are kept in extensive, low-input, pasture-based systems in altitudes between 3800 m and up to 5000 meters above sea level. Smallholders keep mixed herds of sheep, alpaca and llamas as a mitigation strategy against fluctuating market prices. Since 1997 the Peruvian Ministry of Agriculture manages a genealogy registry for alpacas and llamas, but so far the up-take rate by farmers and inscription rate of animals is low. The national research organisation INIA (Instituto Nacional de Innovación Agaria) runs an ex-situ in-vivo conservation program for coloured alpacas (21 different colours) and llamas. INIA is also doing research in the area of embryo transfer, artificial insemination and controlled mating. There is no national breeding program for alpacas, but all individual initiatives from private companies, NGOs and farmers´ cooperatives aim to improve fibre quality by reducing fibre diameter. At the moment these various local programs are not connected. There is also no national breeding program in place for llamas. Little attempts have been made to set up functional breeding programs for this species. Furthermore, there is no a national conservation plan in place. However, INIA have just started the formulation phase of a National Bank for Agrobiodiversity Conservation that include ex situ in vitro conservation of SACs. The Peruvian Ministry of agriculture prioritizes in the recently launched national livestock development plan for 2017 – 2027 alpacas and llamas. Support for the development of breeding plans is mentioned as one action line to increase productivity in both species.
Characterization of Coffea arabica L. parent plants and physicochemical properties of associated soils, Peru
(Cell Press, 2022-10-03) Alvarado Chuqui, Wigoberto; Bobadilla Rivera, Leidy Gheraldine; Valqui Valqui, Leandro; Silva Valqui, Gelver; Valqui Valqui, Lamberto; Vigo Mestanza, Carmen Natividad; Vásquez Pérez, Héctor Vladimir
It is important to carry out the morphological characterization of coffee parent plants and the physicochemical properties of the associated soils in the Amazon region, Peru, in order to achieve germplasm conservation. One hundred coffee mother plants were identified and located in five provinces of the region and evaluated according to morphological descriptors such as stipula shape, young leaf color, leaf shape, leaf apex shape, young shoot color, leaf color, fruit color, fruit shape, mature leaf color, and rust incidence percentage. In the plots where the parent plants were located, soil sampling was carried out to determine the physical and chemical properties. The varieties with the greatest presence in the five provinces were Típica and caturra roja, with the greatest number of specimens reported for the province of Bagua. The predominant stipule shape was triangular (91%), lanceolate leaf shape (60%) and red fruit color (90%). Bongará reported the lowest incidence of yellow rust, as well as the Mundo Novo Rojo variety. Soil pH ranged from acidic to neutral values, low electrical conductivity, high organic matter content, low phosphorus content, high potassium levels and medium cation exchange capacity. The predominant textural class was sandy loam. The physical and chemical characterization of the soils under study show favorable ranges to encourage the best development of coffee cultivation.
From neglect to limelight: Issues, methods and approaches in enhancing sustainable conservation and use of Andean grains in Bolivia and Peru
(kassel university press GmbH, 2009-01-31) Rojas, Wilfredo; Valdivia, Roberto; Padulosi, Stefano; Pinto, Milton; Soto, José Luis; Alcócer, Elsa; Guzmán, Lorena; Estrada Zúniga, Rigoberto; Apaza Mamani, Vidal; Bravo, Rosario
Quinoa (Chenopodium quinoa Willd.), cañihua (C. pallidicaule Aellen) and amaranth (Amaranthus caudatus L.) are staple crops for millions of people in the Andes (NATIONAL RESEARCH COUNCIL 1989, HOLLE 1991, JACOBSEN et al. 2003). Their nutritional content (high quality proteins and good micronutrient profile), hardiness, good adaptability to environmental stresses, versatility in use, and rich associated food culture and traditions are among the reasons for their widespread use by the native civilizations of the Andes over millennia. The role of these species as a staple food has however dramatically changed in the last fifteen years due to their poor economic competitiveness with commodity cereal crops, lack of improved varieties or enhanced cultivation practices, drudgery in processing and value addition, disorganized or non-existent market chains as well as a negative image as “food of the poor” (QUEROL 1988, TAPIA et al. 1992, PADULOSI et al. 2003). Less nutritious, but more practical and trendier products made of wheat, maize and rice have been replacing Andean grains in the diets of millions of people across Bolivia, Peru and Ecuador, countries whose history has been intimately linked to the domestication and use of these ancient crops (PEARSALL 1992). The reduced use of Andean grains has been accompanied by the loss of their genetic diversity with important, albeit less obvious, repercussions for the livelihoods of Andean communities in terms of reduced sustainability and resilience of local agricultural systems, wasted opportunities for improving food and nutrition security, impoverishment of local cultures resulting in reduced self esteem and identity of people (BRESSANI, 1993, KRALJEVIC 2006). As with minor millets in South Asia or leafy vegetables in sub-Saharan Africa (ONIANG’O et al., 2006), the case of Andean grains is representative of the limits of the Green Revolution approach, which concentrated its efforts on global commodity crops, missing out hundreds of other valuable species of regional or local importance and of great value to people’s livelihoods (PADULOSI 2008). The recognition that agricultural biodiversity is a strategic asset in people’s lives has promoted over the last fifteen years or so, the rediscovery of those so-called neglected and underutilized species (NUS) crops which, as in the case of Andean grains, have for too long faced marginalization from the Research and Development sector, which has not supported their continued and effective use (PADULOSI and HOESCHLE-ZELEDON 2008). Several projects and collaborative research frameworks at national and international level have been launched in support of NUS, contributing to a re-focussing of needed and deserved attention on these ‘forgotten crops’. To that end, an important role in demonstrating the value of NUS and the development of best practices, methodologies and tools for their use enhancement is being played by the ‘IFAD-NUS Project’, the first UN-supported global effort dedicated solely to the use enhancement of NUS, including quinoa, cañihua and amaranth, tackled through international participatory, multi-stakeholder and multi-disciplinary efforts. This article reports on the work implemented by the project in Bolivia and Peru over the last seven years, highlighting significant approaches, experiences and outputs as well as challenges and experiences during the implementation of the project, which could be valuable lessons for other similar endeavors in support of NUS.
Genetic diversity in creole pigs in south central Peru
(Springer, 2023-11-30) Luna, Rosa; Acuña Rodríguez, Wendy; Gutiérrez, Gustavo; Castro Muñoz, María del Rosario; Veli Rivera, Eudosio Amancio
The creole pigs represent 67% of the national population in Peru. They are a source of economic income in rural communities, and due to their rusticity, they are not much labor demanding. However, knowledge about its genetic diversity remains scarce. The objective of this study was to determine the population structure and genetic diversity of creole pigs from rural communities in south central Peru. Thirteen microsatellites were used to characterize 120 creole pigs from the departments of Ayacucho (57) and Apurimac (63). The samples were taken from hair follicles and ear tissue. Nine microsatellites were highly polymorphic and informative (PIC > 0.5) for both departments. The Ayacucho population had a mean number of alleles (MNA) and expected heterozygosity (HE) of 8.8 and 0.68, respectively, while in the Apurimac population, these were 8.9 and 0.71, respectively. Both populations showed in less than 50% of their loci a deviation from Hardy–Weinberg equilibrium. There was a moderate genetic structure according to the analysis of molecular variance and the FST statistics (0.06), which was corroborated by Bayesian methods. In conclusion, the genetic diversity was mostly due to the intrapopulation variance (91%). Some individuals from Ayacucho shared similar alleles with those from Apurimac. This latter result may be due to their geographic proximity and the introduction of the same new exotic breeds. This is the first research on the genetic diversity of creole pigs in south central Peru. In fact, this study could serve as a basis for conservation strategies and actions in this region.