Auxins and Cytokinins elicit a differentiated response in the formation of shoots and roots in Cattleya maxima Lindl and Phalaenopsis amabilis (L) Blume

IF 1 Q3 AGRICULTURE, DAIRY & ANIMAL SCIENCE

Scientia Agropecuaria Pub Date : 2022-02-28 DOI:10.17268/sci.agropecu.2022.006

Gabriela Saravia-Castillo, Lourdes Tapia y Figueroa, Ricardo Borjas-Ventura

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引用次数: 2

Abstract

Orchids have a long period of production and need to be under the right conditions. Therefore, in vitro propagation is an alternative to reduce production time. This study aimed to determine the optimal in vitro propagation conditions in two species of orchids, Cattleya maxima Lindl. and Phalaenopsis amabilis (L.) Blume. For this goal, two experiments were carried out: multiplication and rooting, for both species. In the multiplication experiment, the treatments were differentiated according to the complement of MS (Murashige and Skoog medium), banana flour, kinetin or 6-Benzylaminopurine (BAP). Meanwhile, in the rooting experiment, the complements were banana flour, Indol-3-butiric acid (IBA), Naphthaleneacetic acid (NAA) or 2,4-Dichlorophenoxyacetic acid (2,4-D). According to the results, banana flour (50 g.L-1) increased the plantlet height in C. maxima (multiplication) and P. amabilis (rooting). Kinetin (0.003 g.L-1) and BAP (0.005 g.L-1) increased the number of shoots and leaves in C. maxima, in multiplication experiment. In rooting experiment, NAA (0.003 g.L-1) increased significantly the number of leaves in C. maxima. The root formation was notably stimulated by banana flour in both species. Likewise, 2,4-D (0.003 g.L-1) can cause phytotoxic effects and inhibit root formation. In conclusion, C. maxima was more robust than P. amabilis since in all studied variables the former presented the highest values. Furthermore, C. maxima responds adequately to application of kinetin and BAP to increase the aerial part of the plant, however, they inhibit the root formation. In contrast, kinetin and BAP do not limit root growth in P. amabilis.

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生长素和细胞分裂素在Cattleya maxima Lindl和Phalaenopsis amabilis（L）Blume的芽和根形成中引发分化反应

兰花的生产周期很长，需要在合适的条件下进行。因此，体外繁殖是减少生产时间的一种替代方法。本研究旨在确定两种兰花Cattleya maxima Lindl的最佳体外繁殖条件。和Phalaenopsis amabilis（L.）Blume。为此，进行了两个实验：两个物种的繁殖和生根。在增殖实验中，根据MS（Murashige和Skoog培养基）、香蕉粉、激动素或6-苄基氨基嘌呤（BAP）的互补性来分化处理。同时，在生根试验中，补充物为香蕉粉、吲哚-3-丁酸（IBA）、萘乙酸（NAA）或2,4-二氯苯氧乙酸（2,4-D）。结果表明，香蕉粉（50g.L-1）可提高大花（繁殖）和紫茉莉（生根）的植株高度。在增殖实验中，Kinetin（0.003 g.L-1）和BAP（0.005g.L-1）增加了C.maxima的芽和叶的数量。在生根试验中，NAA（0.003g.L-1）显著增加了C.maxima的叶片数量。香蕉粉对两种植物根系的形成都有显著的刺激作用。同样，2,4-D（0.003 g.L-1）可引起植物毒性作用并抑制根的形成。总之，C.maximas比P.amabilis更稳健，因为在所有研究的变量中，前者的值最高。此外，C.maxima对激动素和BAP的施用有充分的反应，以增加植物的地上部分，然而，它们抑制根的形成。相反，激动素和BAP不限制紫茉莉的根系生长。

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