Forage production and nutritive value of Dactylis glomerata and Trifolium subterraneum mixtures under different shading treatments

Production and nutritive value of forage in silvopastural systems can be improved by introducing shade‐ tolerant grass and legume species in appropriate mixtures. The management of these systems can present a challenge regarding the selection of the proper grass and legume species as well as the maintenance of the optimum balance between the two species in the grass–legume stand. The objectives of the present study were to evaluate the performance of pure stands and mixtures (75:25, 50:50, 25:75) of Dactylis glomerata:Trifolium subterraneum under full sun, 60% shade and 90% shade. Dry matter production of D. glomerata was not affected by shading, while that of T. subterraneum was drastically reduced. Shading increased the crude protein (CP) and acid detergent lignin content, but did not affect the acid detergent fibre and neutral detergent fibre content. The dry matter production of the 75:25 and 25:75 mixtures was higher compared to the one of the 50:50 mixture, while the CP content of the 75:25 mixture was the highest under moderate shading. However, relative yield, aggressivity index and competitive balance index indicated higher competitive ability for D. glomerata compared with T. subterraneum especially under shade. Therefore, the 25:75 mixture is suggested as the most suitable under moderate shade (60%), to perpetuate the stand and avoid the frequent re‐sowing of T. subterraneum.     

Sowing date and nitrogen supply determine the outcome of competition between dallisgrass (Paspalum dilatatum Poir.) and tall fescue (Festuca arundinacea Schreb.) in the Pampas region of Argentina

The effects of sowing date and nitrogen (N) fertilizer on the inter‐specific competition between dallisgrass (Paspalum dilatatum Poir.) and tall fescue (Festuca arundinacea Schreb.) in the humid Pampas of Argentina were investigated in two pot experiments where a constant soil moisture content was maintained. Tall fescue and dallisgrass seeds were sown either in the spring (October 2000) or in the autumn (March 2001) in mixed and mono‐specific stands with 0 or 100 kg N ha^?1. In the spring, competition from tall fescue depressed dry‐matter (DM) yield of dallisgrass from 1·53 to 0·36 g DM per plant and tiller number from 9·4 to 3·7 tillers per plant in mixed and in mono‐specific stands, respectively, while tall fescue had 3–4 times higher DM yields in mixed stands. Leaf extension rate (LER) of tall fescue was higher (1·3 mm d^?1) than that of dallisgrass (0·53 mm d^?1). In the autumn, inter‐specific competition did not affect DM yield of dallisgrass and N fertilizer increased DM yield from 0·53 to 2·07 g DM per plant, tiller number from 6·8 to 14·2 tillers per plant and LER at the beginning of autumn from 1·2 to 2·12 mm d^?1 in both species. As temperature decreased, LER was reduced in both species to 0·31 mm d^?1 by late autumn. The number of leaves per tiller was not affected by treatment. Nitrogen fertilizer increased N concentration of above‐ground tissues of both species (18 g kg^?1 DM in autumn and 20 g kg^?1 DM in spring). It was concluded that a productive mixed pasture of dallisgrass and tall fescue can be obtained by sowing early in the autumn. The application of N fertilizer in this season is essential to ensure a high herbage yield and quality.     

不同施氮条件下甜菜RuBP羧化酶活性与产质量关系的研究

对不同施氮条件下甜菜ＲｕＢＰ羧化酶活性进行了研究,结果表明：各施氮处理ＲｕＢＰ羧化酶活性都是苗期最低,随生育进程逐渐升高,到糖分积累期又呈羧化酶活性高峰出现时间不同,Ｎ１８０处理在块根增长期,其它处理均在叶丛形成期;苗期施氮量与ＲｕＢＰ羧化酶活性呈显著正相关,其它各处理相关不显著。     

Effects of cutting or grazing grass swards on herbage yield, nitrogen uptake and residual soil nitrate at different levels of N fertilization

On a Flemish sandy loam soil, cut and grazed swards were compared at different levels of mineral nitrogen (N) fertilization. Economically optimal N fertilization rates were 400 (or more) and 200 kg N ha^?1 yr^?1 on cut and grazed swards respectively. Considering the amounts of residual soil nitrate‐N in autumn, these N rates also met the current Flemish legal provisions, i.e. no more than 90 kg ha^?1 nitrate‐N present in the 0–90 cm soil layer, measured between 1 October and 15 November. The N use efficiency was considerably higher in cut grassland systems than in grazed systems, even when the animal component of a cut and conservation system was included. The results indicate that, for cut grasslands, two N application rates should be considered: intensively managed grasslands with high amounts of N (400 kg ha^?1 yr^?1 or more) or extensively managed grasslands with white clover and no more than 100 kg N ha^?1 yr^?1.     

Competition of Leymus chinensis and Bromus inermis in response to gap size and neighbouring root exclusion

A two‐year small‐plot field experiment was carried out to investigate the competitive relationship between seedlings of two important forage grasses, Leymus chinensis and Bromus inermis, under three levels of gap size (distance between seedlings and their neighbours) of 10, 20 and 40 cm in diameter, with neighbouring roots present or absent. Seeds of the two species were sown into artificially created gaps, in either monoculture or mixtures at equal rates. Results indicated that gap size had significant effects on seedling emergence, seedling survival and the growth performance of the two species, grown alone or in a mixture. Excluding the roots of neighbouring plants enhanced all the measured attributes and had significant effects on both the number of inflorescences and the biomass of B. inermis and on the biomass of L. chinensis. The performance of the two species differed significantly, both alone and in mixtures, with B. inermis outperforming L. chinensis consistently. The number of inflorescences of B. inermis was 2·6‐fold higher than L. chinensis when grown in a mixture, and L. chinensis displayed a large and significant reduction in biomass when grown in a mixture with B. inermis (5·7 g plot^?1) as compared with a monoculture (25·9 g plot^?1). The relative yield (RY) for B. inermis exceeded 0·5, but for L. chinensis, it was below 0·5 in all treatments, and aggressivity (A) in all treatments was above 0. In addition, the relative competition intensity (RCI) of B. inermis was less than that of L. chinensis in all treatments, both separately and when averaged across treatments. We conclude that B. inermis is a superior competitor to L. chinensis in gaps, whereas the performance of L. chinensis was greatly suppressed in mixtures. This indicated that under similar conditions, B. inermis outcompetes L. chinensis during early growth stages. The results have practical implications for the restoration and revegetation of grasslands in northern China.     

密度和氮肥互作对单粒精播花生SPAD值、植株和产量性状的影响

本研究旨在探讨单粒精播花生生理性状和产量性状对密度和氮肥的响应。选择山东省烟台市招远鲁东丘陵地,作物两年三熟。2018和2019年,以出口大花生品种花育22为试验材料进行大田试验,设置了3个种植密度（12万、20万、28万株/hm²,分别表示为D1、D2和D3）和4个施氮量（0、50、115、180 kg/hm²,分别表示为N0、N50、N115、N180）,于不同生育时期调查分析花生SPAD值、植株和产量性状。研究结果表明,种植密度和施氮量均显著影响花生叶绿素含量、干物质量、植株性状和产量性状,且两者互作效应显著。在D2密度条件下,花生荚果产量较D1密度和D3密度分别高24.31%～45.04%和10.57%～15.13%,成熟期叶绿素含量分别高3.70%～27.82%和6.10%～18.94%,成熟期干物质量分别高7.31%～32.34%和10.65%～34.59%,且差异性均达到了显著水平。在D2密度下,施氮量在50～180 kg/hm²范围内,花生荚果产量、叶绿素含量和干物质量均显著高于无氮处理,各施氮处理表现为N115 > N180 > N50 > N0,以施氮量为115 kg/hm²时花生荚果产量最大,较N50和N180处理分别提高了6.83%和3.90%,叶绿素含量、干物质量和植株性状也协同提高。综合考虑生理性状、产量性状等因素,在本试验条件下,单粒精播花生栽培在低密度12万株/hm²下,花生主要产量性状随着施氮量的增加而增加,以种植密度为20万株/hm²,施氮量为115 kg/hm²较为适宜。