亚热带和温带生态条件下籼稻品种产量潜力评价

2001—2002年,对在中国宾川(亚热带)和韩国水原(温带)两生态区8个籼稻品种的产量潜力进行评价.结果表明,亚热带生态条件下实际产量和产量潜力比温带条件下高1.25和4.43t/hm2,差异极显著.亚热带生态条件下具有较高产量潜力,是因为具有较多的生物产量和颖花量,分别比温带条件下多2万/m2和422.25g/m2.对产量构成因子进行通径分析,结果表明,亚热带生态条件下,对产量的影响大小依次是有效穗、穗粒数、结实率、千粒重;温带生态条件下则是千粒重、穗粒数、有效穗、结实率.在亚热带生态条件下,增产途径应是在保证足够有效穗的基础上,适当降低穗粒数而增加结实率;温带生态条件下应在提高千粒重的基础上,保证适当穗粒数.     

兴安落叶松林下冻土中硒元素的分布规律研究

本文通过对我国典型寒温带兴安落叶松林区的原始林、皆伐林、原始湿地3种生态系统冻土中硒元素含量以及影响硒元素含量因素的研究,为了解大兴安岭林区兴安落叶松林(原始林、皆伐林)和原始湿地冻土中的养分状况,以及硒元素含量对兴安落叶松生长发育的影响提供资料。结论如下:①3种生态系统冻土中硒元素含量范围0.010mg/kg~0.208mg/kg,有机质含量范围14g/kg~240g/kg;②对冻土中硒元素含量的影响程度由大到小的因素为土壤层次、生态系统、坡向和坡位;③硒元素含量表层最高,向下含量逐渐减少;④3种生态系统硒元素含量由高到低的顺序为原始湿地、原始林、皆伐林,坡向和坡位对硒元素含量影响不显著。     

降水时间对内蒙古温带草原地上净初级生产力的影响

全球气候变化下降水时间的改变将深刻影响草原生态系统地上净初级生产力(ANPP),而草原生态系统ANPP是区域碳循环的重要过程。利用1998-2007年的SPOT-VEG NDVI数据并结合111个样点的ANPP地面样方调查数据,获得了内蒙古温带草原1998-2007年的ANPP区域数据,依此分析了中国内蒙古温带草原以及区域内的3种植被类型(荒漠草原、典型草原、草甸草原)降水时间对ANPP的影响。研究结果表明,对于整个内蒙古温带草原来说,一个水分年内(从上一年9月份到当年地上生物量达最大值时的8月份)影响ANPP较为重要的降水月份为2-7月份,其中,5-7月份降水尤为重要。具体到每个月降水的影响,研究发现,7月份降水最重要,而仍处于生长季的8月份降水相对于其他生长季降水作用最小;影响不同草地类型最重要的降水时期存在一定差异,对荒漠草原和典型草原地区来说,ANPP达最大值前3个月(5-7月份)的生长季降水最重要,而8月份降水影响较小,而草甸草原地区8月份和非生长季的3、4月份降水最重要,但各个降水时期降水对ANPP的影响都较荒漠草原和典型草原小,大部分地区降水对ANPP的影响不显著。     

Morphological development and nutritive value of herbage in five temperate grass species during primary growth: analysis of time dynamics

In a 2‐year field experiment, morphological development and measures of the nutritive value of herbage for livestock during primary growth in Meadow foxtail, Tall oatgrass, Cocksfoot, Perennial ryegrass and Yorkshire fog were investigated. All measured variables were affected significantly by both species and sampling date, and their interaction (P < 0·001), in the period of primary growth. Changes with time in mean stage weight for Meadow foxtail and Cocksfoot were different from the other species due to their indeterminate growth habits. Mean stage weight of Tall oatgrass and Yorkshire fog increased more rapidly than that of Perennial ryegrass with time. Changes in mean stage weight with time were described by linear, parabolic and sigmoid relationships. Crude protein (CP) concentration of herbage was higher for Cocksfoot and Meadow foxtail than for Perennial ryegrass. A parabolic relationship of CP concentration with time was typical for all the species. Concentrations of neutral‐detergent fibre (NDF) and acid‐detergent fibre (ADF) in herbage of the species differed most during the mid‐period of primary growth. Their increases with time showed curvilinear (sigmoid and parabolic) relationships. Perennial ryegrass had lower concentrations of both NDF and ADF in herbage than the other species. Differences between the in vitro dry matter (DM) digestibility among the grasses increased in mid‐ and late periods of primary growth. Perennial ryegrass had higher values for in vitro DM digestibility but the difference from other species was small in the early period of primary growth and from cocksfoot in the late period of primary growth. In vitro DM digestibility showed, in most cases, a sigmoid and, in others, a linear decrease with time. Principal component analysis showed that perennial ryegrass and meadow foxtail were the most distinctive of the species in characteristics relating to morphological development and the nutritive value of herbage to livestock.     

油松苗的培育管理技术

辽宁省大连市旅顺口区具有北温带季风气候特征,日光充足,雨量适中。油松属温带树种,喜光,适应大陆性气候,是我国"三北"地区主要造林树种。     

北美温带玉米杂交种选系的遗传多样性研究

利用SSR标记对北美温带玉米杂交种选育的24个自交系和我国生产应用的10类骨干代表系进行遗传多样性评价。结果表明,54对SSR引物在48份玉米自交系间共检测到290个等位基因变异,每对引物检测出3~9个等位基因,平均为5.4个。每个位点的多态性信息量(PIC)变化于0.29~0.86之间,平均为0.70。标记索引系数(MI)变化范围0.86~7.45,平均为3.86。供试北美温带选系和其他类群的玉米种质均具有较丰富的遗传多样性。3个杂交种选系的遗传相似系数中3号选系最小(0.776),说明3号较其余两个杂交种选系的遗传差异大。根据SSR标记聚类分析、主坐标分析和遗传进化分析结果表明,北美温带选系和其他种质的48份玉米自交系划分为6大类群,分类结果与系谱来源基本一致。     

Sward patterns created by patch grazing are stable over more than a decade

Under extensive grazing, a mosaic pattern of frequently defoliated short patches and rarely defoliated tall patches is often formed. The agronomic and ecological consequences of this patch‐grazing pattern strongly depend on its stability between successive years. We assessed patch structure and temporal stability under three intensities of cattle stocking (moderate, lenient and very lenient) in a cattle grazing experiment established in 2002. Aerial images of the whole area taken in 2005, 2010, 2013 and 2015 were classified into short and tall patches using random forest classification. These were complemented by annual sward height measurements (2007‐2017) at 10 permanent plots per paddock, which were classified into sward height classes. The mean proportion (0.72, 0.32, 0.19) and size of short patches decreased with stocking intensity, while size of tall patches increased. Inter‐annual stability depended on patch type and stocking intensity and was particularly high for the respective dominant patch type. Of the short patch area in 2015, 0.62, 0.29 and 0.30 were classified as short in all four aerial images under moderate, lenient and very lenient grazing, respectively; the corresponding proportions for tall patches were 0.10, 0.53 and 0.65. Our results imply that short and tall patches experience persistent differences in local grazing intensity over extended periods. The long‐term effects of this heterogeneity on soil properties and vegetation composition need to be monitored to assess agronomic sustainability and ecological potential of patch‐grazed pastures.     

Interaction between water-soluble carbohydrate reserves and defoliation severity on the regrowth of perennial ryegrass (Lolium perenne L.)-dominant swards

A field-study was undertaken in Hamilton, New Zealand to determine if there was an interaction between water-soluble carbohydrate (WSC) reserve content and defoliation severity on the regrowth of perennial ryegrass-dominant swards during winter. Perennial ryegrass plants with either low or high WSC content were obtained by varying the defoliation frequency. At the third defoliation at the one-leaf stage and at the first defoliation at the three-leaf stage (harvest H₁), swards were mown with a rotary lawnmower to residual stubble heights of 20, 40 or 60 mm. All swards were then allowed to regrow to the three-leaf stage before again defoliating to their treatment residual stubble heights (H₂). Frequently defoliated plants contained proportionately between 0·37 and 0·48 less WSC in the stubble after defoliation, depending on the severity of defoliation. There was no interaction between WSC content and defoliation severity for herbage regrowth between harvests H₁ and H₂. Herbage regrowth was lower from swards containing low WSC plants compared with high WSC plants (2279 vs. 2007 kg DM ha⁻¹). Furthermore, swards defoliated to 20 or 40 mm had greater herbage regrowth compared with those defoliated to 60 mm (2266, 2249 and 1914 kg DM ha⁻¹ for swards defoliated to residual stubble heights of 20, 40 and 60 mm, respectively). Regrowth of perennial ryegrass was positively correlated with post-defoliation stubble WSC content within defoliation severity treatment, implying that WSC contributed to the defoliation frequency-derived difference in herbage yield. However, the effect of defoliation severity on herbage regrowth was not associated with post-defoliation stubble WSC content.     

寒温带兴安落叶松林不同林型土壤微生物群落特征

为了研究不同林型兴安落叶松林土壤微生物生物量和群落结构特征,探讨土壤微生物生物量、群落结构的分布规律以及影响因子,选择了4个典型兴安落叶松林,即藓类兴安落叶松林、杜香兴安落叶松林、草类兴安落叶松林和杜鹃兴安落叶松林,采用磷脂脂肪酸生物标记法分析4个林型的土壤微生物量和群落组成。结果表明:4个林型中共检测出10种类型51种不完全分布的磷脂脂肪酸(PLFAs)生物标记,微生物量由多到少的排序为细菌、真菌、放线菌。4个林型中微生物总生物量、细菌生物量是藓类兴安落叶松林最高,草类兴安落叶松林最低;真菌生物量为杜香兴安落叶松林最高,草类兴安落叶松林最低;放线菌生物量为杜鹃兴安落叶松林最高,草类兴安落叶松林最低。冗余分析显示,土壤含水率对细菌影响最大,全钾、速效钾质量分数对真菌影响最大,土壤有机碳和碱解氮质量分数对放线菌影响最大。从而表明,寒温带兴安落叶松林不同林型的土壤微生物生物量和群落存在差异,土壤微生物群落与土壤性质之间具有相关性。     

Responses in gross primary production of Stipa krylovii and Allium polyrhizum to a temporal rainfall in a temperate grassland of Inner Mongolia,China

In the arid and semi-arid areas of China, rainfall and drought affect the growth and photosynthetic activities of plants. Gross primary productivity (GPP) is one of the most important indices that measure the photosynthetic ability of plants. This paper focused on the GPP of two representative grassland species (Stipa krylovii Roshev. and Allium polyrhizum Turcz. ex Regel) to demonstrate the effect of a temporal rainfall on the two species. Our research was conducted in a temperate grassland in New Barag Right Banner, Hulun Buir City, Inner Mongolia Autonomous Region of China, in a dry year 2015. We measured net ecosystem productivity (NEP) and ecosystem respiration flux (ER) using a transparent chamber system and monitored the photosynthetically active radiation (PAR), air and soil temperature and humidity simultaneously. Based on the measured values of NEP and ER, we calculated the GPP of the two species before and after the rainfall. The saturated GPP per aboveground biomass (GPP_AGB) of A. polyrhizum remarkably increased from 0.033 (±0.018) to 0.185 (±0.055) μmol CO₂/(gdw?s) by 5.6-fold and that of S. krylovii decreased from 0.068 (±0.021) to 0.034 (±0.011) μmol CO₂/(gdw?s) by 0.5-fold on the 1^st and 2^nd d after a 9.1 mm rainfall event compared to the values before the rainfall at low temperatures below 35°C. However, on the 1^st and 2^nd d after the rainfall, both of the saturated GPP_AGB values of S. krylovii and A. polyrhizum were significantly lower at high temperatures above 35°C (0.018 (±0.007) and 0.110 (±0.061) μmol CO₂/(gdw?s), respectively) than at low temperatures below 35°C (0.034 (±0.011) and 0.185 (±0.055) μmol CO₂/(gdw?s), respectively). The results showed that the GPP responses to the temporal rainfall differed between S. krylovii and A. polyrhizum and strongly negative influenced by temperature. The temporal rainfall seems to be more effective on the GPP of A. polyrhizum than S. krylovii. These differences might be related to the different physiological and structural features, the coexistence of the species and their species-specific survival strategies.