Breeding and biotechnological efforts in Jatropha curcas L. for sustainable yields

Q3 Agricultural and Biological Sciences Oil Crop Science Pub Date : 2021-10-01 DOI:10.1016/j.ocsci.2021.10.004
S. Arockiasamy , Jyothirmayi Kumpatla , Sainath Hadole , Vijay Yepuri , Manoj Patil , Vineeta Shrivastava , Chandrasekhara Rao , Nagesh Kancharla , Saakshi Jalali , Alok Varshney , Neeta Madan , Sai Pothakani , Vinod Nair , Sridhar Peyyala , Vishwnadharaju Mudunuri , Ananthan Gopal , Niranjan S. Kumar , Jawahar Pachiyannan , Satyanarayana Seelamanthula , J.V. Narasimham , Santanu Dasgupta
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引用次数: 4

Abstract

Jatropha is a non-edible, important bioenergy plant, which can grow in marginalized land. The seeds possess about 36% oil and this would be converted into biodiesel or biojet-fuel. Jatropha provides an option for sustainable feed and fuel production due to its inherent qualities including hardy nature, drought tolerance and surviving with limited amount of water, tolerance to unfavorable conditions and excessive moisture. However, heterozygosity, low productivity and poor understanding of its genome are the major impediments to elite line development. Further, classical breeding and advanced technological investments remain limited owing to long juvenile phase and breeding cycles. Scientific technologies that lead to identification of elite genotypes and development of high yielding elite Jatropha lines and effective methods of detoxification of seeds needs immediate priority. Efficient tissue culture system, doubled haploids (DH) and genomic tools are increasingly made available to improve the seed yield and its oil quantity through the development of geminivirus disease resistant lines. The application of advanced, sequencing technologies has presented a repertoire of genomic information for this important yet orphan crop. In the present investigation, we highlight the achievements made in Jatropha towards development of high yielding, virus resistant elite lines and hybrids with yield potential ranging from 3 to 5 tons per hectare in a year, which is a first ever report in the world. We also developed potential biotechnological tools such as genetic transformation, genome editing and next generation genomics tools including linkage maps and QTLs for accelerating breeding efforts through marker assisted selection. Because of our concerted and continuous efforts during the past 15 years, we have overcome all the obstacles and developed high yielding, disease resistant hybrids/lines, advanced cultivation technologies with thorough knowledge on Agronomy of the Jatropha crop. The Jatropha cultivation technology developed for the first time in the world, could open up new avenues for higher yield productivity of commercial viability.

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麻疯树可持续产量的育种和生物技术努力
麻疯树是一种不可食用的重要生物能源植物,可以生长在边缘地带。这些种子含有大约36%的油,这些油将被转化为生物柴油或生物喷气燃料。麻疯树由于其固有的特性,包括耐寒性、耐旱性和在有限的水量下存活、对不利条件和过度潮湿的耐受性,为可持续饲料和燃料生产提供了一种选择。然而,杂合性、低生产力和对其基因组的不了解是精英系发育的主要障碍。此外,由于幼年期和繁殖周期长,传统育种和先进技术投资仍然有限。优选麻疯树优良基因型的鉴定和高产优良品系的开发以及有效的种子脱毒方法的研究是当务之急。高效的组织培养系统、双单倍体(DH)和基因组工具越来越多地用于通过开发双病毒抗病品系来提高种子产量和油量。先进的测序技术的应用为这种重要的孤儿作物提供了一整套基因组信息。在本次调查中,我们重点介绍了麻疯树在开发高产、抗病毒的优良品系和杂交品种方面取得的成就,这些品系和杂交品种的产量潜力在3至5吨/公顷/年之间,这在世界上是首次报道。我们还开发了潜在的生物技术工具,如遗传转化、基因组编辑和下一代基因组学工具,包括连锁图谱和qtl,通过标记辅助选择加速育种工作。在过去的15年里,我们共同努力,克服了所有的障碍,开发出了高产,抗病的杂交种/品系,先进的栽培技术和对麻疯树作物农艺的全面了解。世界上首次开发的麻疯树栽培技术,为提高麻疯树的产量和商业可行性开辟了新的途径。
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来源期刊
Oil Crop Science
Oil Crop Science Food Science, Plant Science, Agronomy and Crop Science
CiteScore
3.40
自引率
0.00%
发文量
20
审稿时长
74 days
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