某些热带树种种子贮藏期间的生存力

J. C. F. M. Junior, L. D. F. D. A. Melo, Larice Bruna Ferreira Soares, V. M. Ferreira, J. C. A. Neto, Maria Inajal Rodrigues da Silva das Neves, R. D. A. Paes, E. P. Gonçalves, P. C. Souto, J. F. O. Costa, L. Chaves, Wesley Oliveira de Assis
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引用次数: 0

摘要

对于大多数森林树种来说,结果不规律,种子产量低,树木的空间分布,使种子无法满足幼苗生产计划。另一方面,为了防止随后几年的低产量和保持种子活力,有必要采取适当的储存程序。因此,本研究的目的是评价水分含量和贮藏条件对鼠李科(Colubrina glandulsa Perkins)、绿绿松子(Chloroleucon dumosum)种子生理电位的影响。G.P. Lewis(豆科),concortisiliquum (well .)蚕豆科,含羞草(DC.)南美洲热带森林的原生树种:豆科(O. Kuntze)和Sapindus saponaria L. (Sapindaceae)。将种子分别置于纸包装和玻璃包装中,在实验室环境(非受控环境)中分别储存0个月(最近收获的种子)、3个月、6个月、9个月、12个月和15个月。在每个贮藏期,对种子的含水量和生理电位进行测定。该设计完全随机化,每25粒种子重复4次。发芽(G)和发芽均匀性(U)数据采用2 × 6因子(两种包装类型× 6个贮存期)分析方差,并应用多项式回归。在自然环境不受控制的条件下,采用纸包装或玻璃包装,在15个月的储存期中,毛毡花种子、绿绿豆种子、弯曲肠虫种子、含羞草种子和皂荚种子表现出较高的G和U。只要将种子装在初始含水量足够的玻璃容器中,种子的生理潜能就可以保持很长时间。在水分含量分别为8.2、8.1、7.9、8.4%和12.1%的条件下,绿毛茛、绿毛茛、细纹肠、含羞草和皂料种子在贮藏过程中保持活力。因此,储存这些种子的解决方案是将它们严格干燥,然后使用防水包装。建议储存这些树种的种子时,事先将它们包装在玻璃容器中
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Viability of seeds of some tropical tree species during storage
For most forest species the irregularity of fruiting, low seed production and spatial distribution of trees, make it impossible to supply seeds to meet seedling production programs. On the other hand, to prevent subsequent years of low production and maintain seed viability, it is necessary to adopt adequate storage procedures. Therefore, the objectives of the study were to evaluate the influence of water content and storage conditions on the physiological potential of seeds of Colubrina glandulosa Perkins (Rhamnaceae), Chloroleucon dumosum (Benth.) G.P. Lewis (Fabaceae), Enterolobium contortisiliquum (Vell.) Morong (Fabaceae), Mimosa bimucronata (DC.) O. Kuntze (Fabaceae) and Sapindus saponaria L. (Sapindaceae), which are native tree species in tropical forests in South America. The seeds were placed in paper packaging and glass packaging and stored in a laboratory environment (uncontrolled), during storage periods of zero (recently harvested), three, six, nine, 12 and 15 months. For each storage period, the water content and physiological potential of the seeds were evaluated. The design was entirely randomized with four repetitions of 25 seeds. The germination (G) and germination uniformity (U) data were subjected to analysis of variance in a 2 x 6 factorial arrangement (two types of packaging x six storage periods), and application of polynomial regression. Seeds of Colubrina glandulosa, Chloroleucon dumosum, Enterolobium contortisiliquum, Mimosa bimucronata and Sapindus saponaria, packed in paper packaging or glass packaging, and stored under uncontrolled conditions of natural environment, presented higher G and U, in the storage period of 15 months. The physiological potential of the seeds can be maintained for a long time, as long as they are packed in a glass container with an adequate initial water content. With a water content of 8.2, 8.1, 7.9, 8.4% and 12.1%, the seeds of Colubrina glandulosa, Chloroleucon dumosum, Enterolobium contortisiliquum, Mimosa bimucronata and Sapindus saponaria, respectively, maintain the viability during storage. Therefore, the solution to store these seeds would be to rigorously dry them, and then use waterproof packaging. It is recommended that for the storage of seeds of these tree species, they are previously packaged in glass containers
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