60Co gamma irradiation-induced mutation in vegetatively propagated Philodendron erubescens 'Gold'.

Mutation breeding, genetic diversity and crop adaptation to climate change Pub Date : 1900-01-01 DOI:10.1079/9781789249095.0040

Dayani Karunananda, R. Ranathunga, W. Abeysinghe

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引用次数: 1

Abstract

Abstract Philodendron erubescens 'Gold', an ornamental plant and a popular climber with brilliant greenish yellow leaves, is used in indoor gardening and landscaping. It is commonly propagated through vegetative cuttings, thus incorporation of new traits through conventional breeding is impracticable. As commercial floriculture always demands novel varieties, this study was carried out to induce mutation in P. erubescens 'Gold' leaves using gamma- ray irradiation. Rooted cuttings (n = 200) of P. erubescens 'Gold' were subjected to 70 Gy, 100 Gy and 150 Gy gamma-rays and recovered on a propagator. Surviving shoots were transferred to pots. Regenerated shoots were multiplied vegetatively and ten M1 lines were maintained as M1-1 to M1-10 for 12 generations (M1V12) to evaluate growth and morphological variations along with their genetic stability. Of all 70 Gy and 100 Gy treated cuttings, 24 and two, respectively, survived after 6 months. Most of the irradiated plants had lost regeneration ability except for two M1 plants, which also showed comparatively reduced growth (one leaf in 45 days). Only one regenerated M1 plant showed morphological variation in its leaves and it was multiplied and maintained as lines. Several variations, including characteristics of leaves (shape, size, colour), stems (internodal length and branching) and plant stature, were observed among M1 lines and in subsequent vegetative generations. Leaves had three different colour patches, but neither the colour nor its distribution pattern was uniform or stable. The M1-4 line showed the highest stability of colour distribution in leaves; the colour composition of its leaves ranged as 0-10% dark bluish green, 60-90% strong yellow green and 10-30% brilliant greenish yellow throughout the 12 generations. This study demonstrates that gamma irradiated P. erubescens 'Gold' line M1-4 can be a promising mutant to develop as a new Philodendron cultivar.

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60 . co γ辐照诱导无性繁殖紫毛菊‘金’的突变。

摘要:金色绿枝(Philodendron erubescens 'Gold)是一种观赏植物，也是一种受欢迎的攀援植物，叶子呈明亮的黄绿色，用于室内园艺和景观美化。它通常通过无性插枝繁殖，因此通过常规育种纳入新性状是不切实际的。摘要针对商业花卉栽培对新品种的需求，利用伽马射线诱变技术对紫红假单芥(P. erubescens 'Gold)叶片进行了诱变研究。在70 Gy、100 Gy和150 Gy的γ射线照射下，对200根‘金’紫杉扦插进行了处理，并在繁殖体上恢复。幸存的嫩枝被移栽到花盆里。将10个M1系保持为M1-1 ~ M1-10 12代(M1V12)，评价其生长、形态变化及其遗传稳定性。在70 Gy和100 Gy处理下，6个月后分别有24个和2个扦插成活。除2株M1植株生长较弱(45 d 1片)外，其余植株均丧失再生能力。只有1株M1再生植株的叶片形态发生了变化，并作为株系进行了繁殖和维持。在M1系和随后的营养世代中观察到一些变化，包括叶片(形状、大小、颜色)、茎(节间长度和分枝)和植株高度的特征。叶片有三个不同的色块，但颜色和分布格局都不均匀或不稳定。M1-4系叶片颜色分布稳定性最高;在12代中，其叶子的颜色组成为0-10%的深蓝绿色，60-90%的强黄绿色和10-30%的亮绿黄色。本研究表明，伽玛辐照后的红毛茛‘金’系M1-4是一个很有潜力的突变体。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Mutation breeding, genetic diversity and crop adaptation to climate change

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