24份加拿大牧草品种引种试验

1986年我们从加拿大碧青种子公司引进牧草种子24份,其中豆科7份,禾本科17份,于当年秋播。从3年试种结果看,Glory苜蓿、Minto苜蓿、Algonquin苜蓿在北京种植,无论是产草量、种子产量、草质还是适应性均表现良好。Leo百脉根在北京可安全越冬,其特点是夏季生长繁茂,草质好,耐牧,耐践踏。Orbit长穗冰草、Chief 中间冰草、阿尔泰野麦草表现为抗寒耐旱,产草量高,但要适时利用,否则会降低饲用价值。俄罗斯野麦草、Nordan沙生冰草、草地看麦娘、猫尾草产草量一般,但草质好,春季返青早,枯黄期晚,可在京郊西部山区种植。无芒雀麦(2份)、鸭茅、牛尾草、(艹鹝)草(3份)均表现为适应性好,草质优,产草量高,是较好的禾本科牧草。白三叶、草地早熟禾可做为地被植物和草坪草。     

多效唑调控观赏竹生长的初步研究

竹笋施用多效唑后,对其新梢日平均生长量及成竹后全竹高,枝下高、节间长、叶面积均有显著的抑制作用,注射处理在浓度300～800 mg·kg-1,喷施处理在浓度300～1000 mg·kg-1范围内,随处理浓度递增,抑制作用更为显著.应用多效唑能提高观赏竹的观赏价值,解决盆景制作的矮化及枝叶美化问题.     

Detection, identification and significance of phytoplasmas in grasses in northern Australia

Sugarcane yields have been severely reduced by white leaf and grassy shoot phytoplasma diseases in many parts of Asia. Australian sugarcane crops are not known to be affected by these diseases, but plant pathogenic phytoplasmas found in other introduced and native grasses in northern Australia could pose a serious threat to the Australian sugarcane industry. To further evaluate this threat, leaves from plants of 20 grass species, with and without symptoms, were collected during field surveys in northern Australia and tested to determine whether phytoplasmas were present and whether symptoms were reliable indicators of phytoplasma presence. Molecular tools were used to detect and characterize phytoplasmas. Four different phytoplasmas were found in seven grass species known to grow near healthy sugarcane crops. All the phytoplasmas were closely related to sugarcane white leaf phytoplasma (SCWL), one of the phytoplasmas that causes disease in sugarcane in Asia. Four of the host plant species and two of the phytoplasmas were new records. The relationship between symptoms and phytoplasma presence was poor. Because some plants with symptoms tested negative for phytoplasmas, a series of surveys was carried out in which flowers, leaves, roots and stems of two known host plant species, Whiteochloa cymbiformis and Sorghum stipoideum, were tested separately on nine occasions during two wet seasons. This was done to investigate the distribution of phytoplasmas within plants over time. Results showed that spatial and temporal variation of phytoplasmas occurred in these two host plant species. Hence, evaluation of disease distribution within a region requires repeated testing of all plant parts from plants without symptoms, as well as those with symptoms. To date, there is no report of a vector capable of transmitting to Australian sugarcane the phytoplasmas found in grasses in this study. If one is present, or occurs in the future, then native and introduced grasses could constitute a large reservoir of phytoplasma for vectors to draw on. This work provides an early warning for the sugarcane industry that the potential for infection exists.     

甘肃荚蒾属(Viburnum L. )观赏植物资源的调查研究

 在对甘肃荚蒾属植物资源调查的基础上, 整理并描述了27个分类群的生境、分布以及观赏性状, 包括叶、花、果实等, 并结合该属植物的资源现状, 提出了可持续开发利用的建议。     

云南醉鱼草属(Buddleja L.) 观赏植物资源的调查研究

 在对云南分布的醉鱼草属观赏资源系统调查和资料整理的基础上, 研究了该属植物在云南的地理分布规律及25 种(包括变种) 醉鱼草的观赏性状, 包括花、叶、香气等观赏特征及其开花期, 指出开发利用面对的问题和应采取的措施。     

云南金丝桃属植物资源的调查研究

 通过对云南分布的金丝桃属植物资源系统调查和资料整理，研究了该属植物在云南的地理分布及24种金丝桃的观赏性状及其资源状况，提出其持续合理开发利用的建议及措施。     

园艺专业观赏植物病虫害防治课程教学改革的探索与实践

针对观赏植物病虫害防治课程在实际教学过程中存在的问题,笔者从教学材料更新、创新性教学方法的应用、建立科学有效的评价体系几方面探讨如何有效调动学生主动学习的兴趣、培养学生创新应用能力,为该课程教学方法的改革和全面综合型园艺人才的培养提供参考。     

Environmental performances of giant reed (Arundo donax L.) cultivated in fertile and marginal lands: A case study in the Mediterranean

Perennial rhizomatous grasses (PRGs) tend to have a high yield combined with a low environmental impact. Cultivation in marginal or poorly cultivated land is recommended in order not to compromise food security and to overcome land use controversies. However, the environmental impacts of using different types of soil are still unclear. We thus assessed the environmental impact of two giant reed (GR) systems cultivated in a fertile soil (FS) and in a marginal soil (MS) through a cradle-to-plant gate LCA. We analyzed energy balance, GHG emissions (including LUC, not including iLUC), and the main impacts on air, water and soil quality. In both systems the annualized soil carbon sequestration was more than twofold the total GHG emitted, equal to −6464 kg CO₂eq ha⁻¹ in FS and −5757 kg CO₂eq ha⁻¹ in MS. Overall, soil characteristics affected not only GR yield level, but also its environmental impact, which seems to be higher in the MS system both on a hectare and tonne basis. The production of GR biomass in marginal soil could thus lead to higher environmental impacts and a more extensive land requirement.     

西双版纳南览河流域常见观赏蝶种及其寄主植物资源调查

西双版纳勐海县境内南览河流域具有良好的天然植被,蝴蝶种类繁多。为了开展重要观赏蝶种的人工繁育试验,2013—2018年对南览河中低海拔地带的常见观赏蝴蝶及其野生寄主植物资源开展了进一步的深入调查,结果表明,经过5年定点调查和沿线观察,在区域内发现兼具较高观赏价值及人工繁育潜力的蝶种46个;通过观察野外成虫的产卵活动,结合野外套袋及室内饲养幼虫,发现蝴蝶寄主植物38种,初步查明了相关蝶种的野生寄主植物资源。调查工作可为筛选出当地适生优良寄主植物、进一步开展相关蝶种的人工养殖试验提供参考。     

Unravelling the relationship between a seasonal environment and the dynamics of forage growth in grazed swards

It is well reported in the scientific literature that pastures can have similar net forage accumulation when managed with contrasting structures. However, we hypothesized that the dynamics of forage accumulation in grazed swards is linked to seasonal-environmental conditions. Marandu palisadegrass (Brachiaria brizantha [Hochst. ex A. Rich.] was used as the forage species model. The experimental treatments were four grazing heights (10, 20, 30 and 40 cm) allocated to experimental units according to a randomized complete block design with four replicates and evaluated throughout four contrasting environmental seasons (summer, autumn, winter–early spring and late spring). Under rainy and warm periods, greater net forage accumulation was observed in pastures maintained taller; on the contrary, during the mild and dry periods, net forage accumulation rate reduced as grazing height increased. Such patterns of responses were related to compensations between tiller population density and tissues flows during summer and late spring and the reduced capacity of taller canopies to compensate lower population with greater growth rates during autumn and winter–early spring. Grazed swards changed their patterns of forage growth as they transitioned from favourable to more abiotic stressful conditions, suggesting that seasonal adjustments in grazing intensities are necessary in order to maximize forage production.