土壤水分饱和条件下的刺桐(豆科 - 蝶形花亚科):形态生理和生长响应
Erythrina speciosa (Leguminosae-Papilionoideae) under soil water saturation: morphophysiological and growth responses.
作者信息
Medina Camilo L, Sanches Maria Cristina, Tucci Maria Luiza S, Sousa Carlos A F, Cuzzuol Geraldo Rogério F, Joly Carlos A
机构信息
Departmento de Biologia Vegetal, IB, Universidade Estadual de Campinas, CP 6109, 13083-970 Campinas, SP, Brazil.
出版信息
Ann Bot. 2009 Sep;104(4):671-80. doi: 10.1093/aob/mcp159. Epub 2009 Jul 5.
BACKGROUND AND AIMS
Erythrina speciosa is a Neotropical tree that grows mainly in moist habitats. To characterize the physiological, morphological and growth responses to soil water saturation, young plants of E. speciosa were subjected experimentally to soil flooding.
METHODS
Flooding was imposed from 2 to 4 cm above the soil surface in water-filled tanks for 60 d. Non-flooded (control) plants were well watered, but never flooded. The net CO(2) exchange (A(CO2)), stomatal conductance (g(s)) and intercellular CO(2) concentration (C(i)) were assessed for 60 d. Soluble sugar and free amino acid concentrations and the proportion of free amino acids were determined at 0, 7, 10, 21, 28 and 45 d of treatments. After 28, 45 and 60 d, dry masses of leaves, stems and roots were determined. Stem and root cross-sections were viewed using light microscopy.
KEY RESULTS
The A(CO2) and g(s) were severely reduced by flooding treatment, but only for the first 10 d. The soluble sugars and free amino acids increased until the tenth day but decreased subsequently. The content of asparagine in the roots showed a drastic decrease while those of alanine and gamma-aminobutyric increased sharply throughout the first 10 d after flooding. From the 20th day on, the flooded plants reached A(CO2) and g(s) values similar to those observed for non-flooded plants. These events were coupled with the development of lenticels, adventitious roots and aerenchyma tissue of honeycomb type. Flooding reduced the growth rate and altered carbon allocation. The biomass allocated to the stem was higher and the root mass ratio was lower for flooded plants when compared with non-flooded plants.
CONCLUSIONS
Erythrina speciosa showed 100 % survival until the 60th day of flooding and was able to recover its metabolism. The recovery during soil flooding seems to be associated with morphological alterations, such as development of hypertrophic lenticels, adventitious roots and aerenchyma tissue, and with the maintenance of neutral amino acids in roots under long-term exposure to root-zone O(2) deprivation.
背景与目的
刺桐是一种主要生长在潮湿生境中的新热带树种。为了描述其对土壤水分饱和的生理、形态和生长反应,对刺桐幼苗进行了土壤淹水实验。
方法
在装满水的水箱中,使土壤表面以上2至4厘米处被水淹60天。未淹水(对照)的植株正常浇水,但从未被水淹。连续60天评估净二氧化碳交换量(A(CO2))、气孔导度(g(s))和细胞间二氧化碳浓度(C(i))。在处理的第0、7、10、21、28和45天测定可溶性糖和游离氨基酸浓度以及游离氨基酸比例。在第28、45和60天后,测定叶片、茎和根的干质量。使用光学显微镜观察茎和根的横切面。
主要结果
淹水处理使A(CO2)和g(s)严重降低,但仅在前10天如此。可溶性糖和游离氨基酸在第10天前增加,但随后减少。淹水后前10天,根中天门冬酰胺含量急剧下降,而丙氨酸和γ-氨基丁酸含量急剧增加。从第20天起,淹水植株的A(CO2)和g(s)值与未淹水植株相似。这些变化与皮孔、不定根和蜂窝状通气组织的发育有关。淹水降低了生长速率并改变了碳分配。与未淹水植株相比,淹水植株分配到茎的生物量更高,根质量比更低。
结论
刺桐在淹水60天内存活率达100%,并能够恢复其代谢。土壤淹水期间的恢复似乎与形态改变有关,如肥大皮孔、不定根和通气组织的发育,以及在长期根际缺氧条件下根中中性氨基酸的维持有关。
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