Seedling emergence of tropical perennial pasture species in response to temperature used to determine sowing time recommendations

IF 0.9 4区农林科学 Q3 AGRICULTURE, DAIRY & ANIMAL SCIENCE

Tropical Grasslands-Forrajes Tropicales Pub Date : 2023-09-30 DOI:10.17138/tgft(11)198-209

Marja Simpson, Suzanne Patricia Boschma, Yohannes Alemseged, Matthew Thomas Newell, Mark Roger Norton, Warren John Smith, Mark Andrew Brennan, Neil Munday, Steve Harden, Andrew Price

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Abstract

Tropical pasture grasses and legumes can be highly productive and persistent and fill the summer-autumn feed gap typical of temperate pasture systems in southern Australia. However, more information is needed on optimum temperature range for seedling emergence because this will influence sowing time recommendations. A replicated field experiment was conducted at 5 locations in New South Wales over a 12-month period to determine the optimum temperature for emergence of a range of tropical species: Rhodes grass (Chloris gayana Kunth), Makarikari grass (Panicum coloratum L. var. makarikariense Gooss.), kikuyu grass (Cenchrus clandestinus (Hochst. ex Chiov.) Morrone), digit grass (Digitaria eriantha Steud.), panic grass (Megathyrsus maximus (Jacq.) B.K. Simon & S.W.L. Jacobs), paspalum (Paspalum dilatatum Poir.), Urochloa hybrid (Urochloa decumbens × U. ruziziensis × U. brizantha), 2 cultivars of Desmanthus virgatus (L.) Willd. (cultivars ‘Marc’ and ‘JCU2’), D. bicornutus (S. Watson), D. leptophyllus (Kunth) and D. pernambucanus (L.) Thell.). Rhodes grass emerged satisfactorily over the longest time across all sites, exhibiting the greatest temperature range over which emergence occurred, while Makarikari grass and panic grass had the narrowest temperature range for emergence. The temperature for 50% emergence differed between the tropical species and whether the soils were warming or cooling. Rhodes grass had the lowest 50% emergence temperature (17 °C) while paspalum had the highest (22 °C). Results showed that temperature for 50% emergence is a useful indicator for determining sowing time in warming soils.

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热带多年生牧草幼苗出苗对温度的响应，用于确定播种时间的建议

热带牧草和豆科植物具有很高的产量和持久性，可以填补澳大利亚南部温带牧草系统的夏秋饲料缺口。然而，需要更多的关于幼苗出苗的最佳温度范围的信息，因为这将影响播种时间的建议。在新南威尔士州的5个地点进行了为期12个月的重复田间试验，以确定一系列热带物种出现的最佳温度:罗氏草(Chloris gayana Kunth)， makarikariense (Panicum coloratum L. var. makarikariense Gooss.)，基库尤草(Cenchrus clausdestinus (Hochst.)。Chiov交货)。指草(Digitaria eriantha Steud.)，恐慌草(Megathyrsus maximus (Jacq.))B.K.西蒙&;S.W.L. Jacobs)、雀稗(paspalum dilatatum Poir.)、尾草杂交种(Urochloa decumbens × U. ruziziensis × U. brizantha)、2个芒草品种(Desmanthus virgatus, L.)Willd。(品种' Marc '和' JCU2 ')， D. bicornutus (S. Watson)， D. leptophyllus (Kunth)和D. pernambucanus (L.)Thell)。在所有地点中，罗氏草出现的时间最长，出现的温度范围最大，而马卡里草和恐慌草出现的温度范围最窄。热带树种出苗率为50%时的温度不同，土壤变暖或变冷也不同。50%羽化温度最低的是罗氏草(17℃)，最高的是雀稗(22℃)。结果表明，在变暖土壤中，出苗率达到50%时的温度是确定播种时间的有效指标。

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来源期刊

Tropical Grasslands-Forrajes Tropicales Agricultural and Biological Sciences-Agronomy and Crop Science

CiteScore

1.60

自引率

0.00%

发文量

审稿时长

16 weeks

期刊介绍： The Journal publishes, in English or Spanish, Research Papers and Short Communications on research and development, as well as contributions from practitioners (Farmer Contributions) and Review Articles, related to pastures and forages in the tropics and subtropics. There is no regional focus; the information published should be of interest to a wide readership, encomprising researchers, academics, students, technicians, development workers and farmers. In general, the focus of the Journal is more on sown (''improved'') pastures and forages than on rangeland-specific aspects of natural grasslands, but exceptions are possible (e.g. when a submission is relevant for a particularly broad readership in the pasture and forage science community). The Journal will also consider the occasional publication of associated, but closely related, research in the form of an additional scientific communication platform [e.g. a re-make of the former Genetic Resources Communication series of the former Division of Tropical Crops and Pastures of the Commonwealth Scientific and Industrial Research Organisation (CSIRO), Australia]. Areas of particular interest to the Journal are: Forage Genetic Resources and Livestock Production[...] Environmental Functions of Forages[...] Socio-economic Aspects[...] Topics within the aforementioned areas may include: Diversity evaluation; Agronomy; Establishment (including fertilization); Management and utilization; Animal production; Nutritive value; Biotic stresses (pests and diseases, weeds); Abiotic stresses (soil fertility, water, temperature); Genetics and breeding; Biogeography and germplasm collections; Seed production; Ecology; Physiology; Rhizobiology (including BNF, BNI, mycorrhizae); Forage conservation; Economics; Multilocational experimentation; Modelling.