Arcos-Pineda Jesus H, Del Rio Alfonso H, Bamberg John B, Vega-Semorile Sandra E, Palta Jiwan P, Salas Alberto, Gomez Rene, Roca William, Ellis David
Instituto Nacional de Innovacion Agraria (INIA), Estacion Experimental Agricola (EEA) Illpa-CE Salcedo, Puno, Peru.
U.S. Department of Agriculture (USDA)/Agricultural Research Service, Potato Genebank, Sturgeon Bay, WI, United States.
Front Plant Sci. 2024 Mar 5;15:1358565. doi: 10.3389/fpls.2024.1358565. eCollection 2024.
This breeding project, initiated at the United States Potato Genebank (USPG) in collaboration with Peruvian partners Instituto Nacional de Innovacion Agraria (INIA), International Potato Center, Peru (CIP), and local farmers, sought to enhance cold hardiness and frost tolerance in native potato cultivars in Peru. The Andes and Altiplano are often affected by frost, which causes significant reduction in yield; creating varieties with superior resilience is a critical undertaking. The goal was to transfer outstanding non-acclimated cold tolerance and acclimation capacity found in wild potato species . Breeding families segregating for cold hardiness were created using (a) a somatic hybrid + haploid () (cv. Superior, US variety from Wisconsin) as male and (b) seven cultivars native to Peru of the species sbsp. () as females. All plant materials were part of the USPG germplasm collection. Sexual seeds of each family were sent to Peru for evaluations under the natural conditions of the Andean highlands and Altiplano. The plants were assessed for their response to frost, and genotypes showing exceptional tolerance were selected. Plants were also evaluated for good tuber traits and yield. Initial planting involving ~2,500 seedlings in five locations resulted in selecting 58 genotypes with exceptional frost tolerance, good recovery capacity after frost, and good tuber traits. Over the years, evaluations continued and were expanded to replicated field trials in the harsher conditions of the Altiplano (Puno). All trials confirmed consistency of frost tolerance over time and location, tuber quality, and yield. After 8 years, two advanced clones were considered for cultivar release because of their exceptional frost tolerance and superior field productivity that outyielded many of the established cultivars in the region. In November 2018, a new native cultivar named , a Quechua word meaning "to grow" was released in Peru. In 2022, a second cultivar followed with the name (meaning "for all of us"). This project evidenced that a multinational and all-encompassing approach to deploy valuable genetic diversity can work and deliver effective results. This is even more significant when outcomes can promote food security and sustainability in very vulnerable regions of the world.
这个育种项目由美国马铃薯基因库(USPG)发起,与秘鲁合作伙伴国家农业创新研究所(INIA)、秘鲁国际马铃薯中心(CIP)以及当地农民合作开展,旨在提高秘鲁本土马铃薯品种的抗寒能力和耐霜冻能力。安第斯山脉和阿尔蒂普拉诺高原经常受到霜冻影响,导致产量大幅下降;培育具有更强恢复力的品种是一项至关重要的工作。目标是转移野生马铃薯品种中发现的出色的非驯化抗寒能力和驯化能力。利用(a)一个体细胞杂种 + 单倍体(品种为Superior,来自美国威斯康星州的品种)作为父本,以及(b)七个秘鲁本土的 sbsp. (品种)作为母本,创建了分离抗寒能力的育种家系。所有植物材料都是美国马铃薯基因库种质资源库的一部分。每个家系的有性种子被送往秘鲁,在安第斯高地和阿尔蒂普拉诺高原的自然条件下进行评估。对这些植株进行霜冻反应评估,选择表现出异常耐受性的基因型。还对植株的块茎优良性状和产量进行了评估。最初在五个地点种植了约2500株幼苗,从中选出了58个基因型,这些基因型具有出色的耐霜冻能力、霜冻后良好的恢复能力以及优良的块茎性状。多年来,评估工作持续进行,并扩展到在阿尔蒂普拉诺高原(普诺)更恶劣条件下的重复田间试验。所有试验都证实了耐霜冻能力在时间和地点上的一致性、块茎品质和产量。8年后,由于两个先进无性系具有出色的耐霜冻能力和卓越的田间生产力,产量超过了该地区许多现有品种,因此被考虑用于品种发布。2018年11月,一个名为 的新本土品种在秘鲁发布, 是一个克丘亚语单词,意为“生长”。2022年,第二个品种 (意为“为了我们所有人”)发布。该项目证明,采用跨国且全面的方法来利用宝贵的遗传多样性是可行的,并能产生有效的成果。当这些成果能够促进世界上非常脆弱地区的粮食安全和可持续性时,这一点就更加重要了。
