M. Mangwane, I. Madakadze, FV Nherera-Chokuda, S. Dube, M. Mndela
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引用次数: 1
摘要
某些草显示出恢复煤矿废墟的潜力。物种选择和评价用于指导选择最合适的草种。在0(蒸馏水)、100、200、400、600、800和1 000 mS m−1 NaCl不同盐度条件下,对7种牧草(部分为2个品种)的萌发性能进行了研究。测定了各处理组合的累积发芽率、最终发芽率(FG%)和达到最终发芽率50%所需时间(T50)。累积发芽率、成果率和T50与种与盐度的交互作用极显著(p < 0.01)。累积发芽率在第17天逐渐上升,之后逐渐下降。在蒸馏水(0 mS m−1)条件下,各草种的成虫率最高,为38% ~ 94%,随盐度的增加呈极显著下降(p < 0.01)。T50随盐度的增加而增加。在600 mS m−1处理下,黑麦和多花Lolium multiflorum var. Archie的萌发速度最快,分别达到45%和50% (p < 0.01),表明其耐盐性高于其他品种。总体而言,盐度增加降低了所有被试草的发芽性能;而Archie和Ermelo在盐碱水灌溉的煤矿废弃地恢复中表现出较高的潜力。
Germination performance of different forage grass species at different salinity (NaCl) concentrations
Certain grasses show potential for the rehabilitation of coalmine spoils. Species selection and evaluation are used to guide the choice of the most appropriate grass species. This study evaluated the germination performance of seven forage grass species, with some represented by two varieties, under varying salinity conditions of 0 (distilled H2O), 100, 200, 400, 600, 800 and 1 000 mS m−1 of NaCl. Cumulative germination, final germination percentage (FG%), and time taken to reach 50% of the final germination (T50) were determined for each species–treatment combination. Species × salinity interaction was significant (p < 0.01) for cumulative germination, FG% and T50. Cumulative germination increased gradually up to 17 days and thereafter declined. The highest FG% for all grass species was attained under distilled water (0 mS m−1), ranging from 38% to 94%, and declined significantly (p < 0.01) with an increase in salinity. T50 increased with increasing salinity for all grass species. Eragrostis curvula var. Ermelo and Lolium multiflorum var. Archie were the quickest to germinate and attained significantly (p < 0.01) higher values of FG%, of 45% and 50%, respectively, at 600 mS m−1, indicating higher salt tolerance than the other species. Overall, increasing salinity reduced the germination performance of all grass species tested; however, Archie and Ermelo showed higher potential for rehabilitation of coalmine spoils irrigated with saline water.
期刊介绍:
The African Journal of Range & Forage Science is the leading rangeland and pastoral journal in Africa. The Journal is dedicated to publishing quality original material that advances rangeland ecology and pasture management. The journal aims to publish research of international importance from any region, but as an African journal, we are particularly interested in research from Africa and relevant to the continent. The Journal promotes both science and its application and authors are encouraged to explicitly identify the practical implications of their work. Peer-reviewed research papers and research notes deal primarily with all aspects of rangeland and pasture ecology and management, including the ecophysiology and biogeochemistry of rangelands and pastures, terrestrial plant–herbivore interactions (both domestic and wild), rangeland assessment and monitoring, effects of climate change on rangelands, rangeland and pasture management, rangeland rehabilitation, ecosystem services in support of production, conservation and biodiversity goals, and the identification and development of intensive and semi-intensive pasture and forage resources to meet livestock production needs. Articles highlighting transdisciplinary linkages among biophysical and social sciences that support management, policy and societal values are particularly encouraged. The Journal includes relevant book reviews and invited perspectives that contribute to the development of range and forage science. Letters to the editor that debate issues raised in the Journal are acceptable. The African Journal of Range & Forage Science is the official journal of the Grassland Society of Southern Africa.
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