论农药的宏观毒理学

农药一旦喷撒到目标物上,即开始了向有害生物作用靶位转移的漫长历程。作者建议把此历程区分为两个范畴:进入有害生物体内以后的体内剂量转移是传统的生理毒理学研究领域,属于'微观毒理学’范畴;之前发生在生物体外的剂量转移历程尚未被作为毒理学问题研究,但许多边缘科学的大量科学事实和现象说明它们实际上属于毒理学问题,应属于'宏观毒理学’范畴。文章对农药宏观毒理学现象的7个方面进行了毒理学本质的分析和综述,并指出,对农药宏观毒理学的研究将大幅度提高农药的使用技术水平,大幅度降低农药用量,并将促进农药剂型和高性能助剂乃至新型合理化农药的研究开发。     

Anoda cristata control with glyphosate in narrow- and wide-row soyabean

Experiments evaluated the effect of glyphosate rate and Anoda cristata density, on crop and weed biomass and weed seed production in wide (70 cm) and narrow rows (35 cm) glyphosate‐resistant soyabean (Glycine max). Soyabean density was higher at 35 cm row spacing as an increase in planting rate in narrow‐row soyabean is recommended for producers in Argentina. Soyabean biomass at growth stage V4 (four nodes on the main stem with fully developed leaves beginning with the unifoliate leaves) was higher when grown on narrow than in wide‐rows but was not affected by the presence of A. cristata. At growth stage R5 (seed initiation – seed 3 mm long in a pod at one of the four uppermost nodes on the main stem, with a fully developed leaf and full canopy development), crop biomass was greater in narrow rows compared with wide rows with 12 plants m^?2 of A. cristata. In narrow‐row soyabean, a single application of a reduced rate of glyphosate maintained soyabean biomass at R5 and provided excellent weed control regardless of weed density. In wide‐row soyabean control was reduced at the high weed density. Regardless of row spacing, A. cristata biomass and seed production were severely reduced by half of the recommended dose rate of glyphosate but the relationship between biomass and seed production was not altered. Glyphosate rates as low as 67.5 g a.e. ha^?1 in narrow rows or 540 g a.e. ha^?1 in wide rows provided excellent control of A. cristata. To minimize glyphosate use, planting narrow‐row soyabean are effective where A. cristata density is low.     

年轻群体在公共绿地中的活动参与度调查——以上海浦东新区部分公园为例

公共绿地作为开放空间,公众可以共享自然环境及社会资源。而当下公共绿地中不同群体的参与度存在较大差异,尤其是年轻群体参与度低。笔者以上海浦东新区部分公共绿地中年轻群体活动参与度为研究对象,从年轻群体的低参与度、活动意愿及管理者角度等方面,分析了年轻群体低参与度的原因,认为原因主要是年轻群体缺乏业余时间、绿地可达距离较远、活动内容缺乏等。在调查基础上,从活动载体、信息渠道、服务方式等方面提出建议,主张公共绿地管理者转变服务理念、开拓有益活动、建立信息平台、优化空间资源,以提高社会服务效能。     

佛山岭南天地旧改项目中开放空间的特色分析

近年来,国内出现了不少基于城市老街区改造为商业街区的项目。通过对佛山岭南天地项目中有代表性的广场、街道、建筑等节点进行调研,选取开放空间的3个特色要素——空间形态和尺度,传统装饰元素,植物和水景布置,探析"新天地"模式中开放空间营造的特色手法,包括保持街巷形态和宜人尺度,增强街区公共属性;保护传统建筑构件,利用传统材料、技术;保留古树,并结合植物和水景布置,形成多层次的景观系统等。     

Why viewing nature is more fascinating and restorative than viewing buildings: A closer look at perceived complexity

The present paper addresses the question which visual features trigger people’s often more positive affective responses to natural compared to built scenes. Building on notions about visual complexity and fractal geometry, we propose that perceived complexity of magnified scene parts can predict the greater fascinating and restorative qualities of natural versus built scenes. This prediction was tested in an experiment in which 40 participants viewed and rated 40 images of unspectacular natural and built scenes in their original size, and at 400% and 1600% magnification levels. Results showed that the original, unmagnified natural scenes were viewed longer and rated more restorative than built scenes, and that these differences were statistically mediated by the greater perceived complexity of magnified parts of natural scenes. These findings fit with the idea that fractal-like, recursive complexity is an important visual cue underlying the restorative potential of natural and built environments.     

Density responses and spatial distribution of cotton yield and yield components in jujube (Zizyphus jujube)/cotton (Gossypium hirsutum) agroforestry

Trees are the dominant species in agroforestry systems, profoundly affecting the performance of understory crops. Proximity to trees is a key factor in crop performance, but rather little information is available on the spatial distribution of yield and yield components of crop species under the influence of trees in agroforestry systems. Also, little information is available on how crop density may be exploited to optimize the yield in such systems. Here we studied the performance of cotton in jujube/cotton agroforestry. Field experiments were conducted in 2012 and 2013 in Hetian, Xinjiang, China. Cotton was grown at a row distance of 60 cm in three densities, 13.5, 18.0 and 22.5 plants m⁻² in six m wide paths between tree lines in a jujube plantation. Plant density affected both cotton aboveground dry matter and yield significantly. The highest yield was attained at the intermediate density of 18.0 plants m⁻² (20.0 plants m⁻² corresponding in sole cotton), lower than the optimal density in sole cotton (25.0 plants m⁻²). Yield at the lower density was constrained by the low number of bolls per m² as a direct consequence of the low density, whereas at the high plant density yield was constrained by a lower allocation of assimilates to cotton seed and lint, as a consequence of intraspecific and interspecific competitions. There were strong gradients in yield and yield components in relation to the distance from the tree rows. Leaf area and total dry matter of cotton in rows close to the tree lines were reduced, especially in the rows next to the trees. Moreover, biomass allocation to cotton fruits was reduced in these rows. Competitive influences from the trees on cotton performance extended two rows deep in a six-year old jujube stand, and even three rows deep in a seven-year old stand. Shading effects on cotton yield were compensated by increasing plant density as a result of greater boll numbers per unit ground area. Data from this study help guide the design of optimal plant density of cotton in jujube plantations and give insight in the spatial distribution and dynamics of competitive effects in agroforestry systems in general.     

根土空间对花生营养器官氮、磷、钾吸收积累变化的影响

为探讨花生高产适宜根系的大小,确定作物根系生长的合理空间范围,为花生高产新品种选育和栽培提供理论依据。以高产花生品种青花7号为试材,设长×宽×深分别为40 cm×20 cm×20 cm、40 cm×20 cm×40 cm、40 cm×20 cm×60 cm、40 cm×20 cm×80 cm 4种大小不等的根土空间,采用网袋法,研究了根土空间对花生营养器官氮、磷、钾吸收积累变化的影响。结果表明,根土空间过小限制了花生根茎叶生物量、氮磷钾含量和积累量的提高,当限根深度超过60 cm后,根土空间大小对花生根茎叶生物量、氮磷钾含量和积累量的影响变小。说明限根深度超过60 cm后,根土空间大小已不是限制花生吸收氮磷钾素的关键因素,限根深度不小于60 cm的根土空间是花生获得较高产量水平的一个必要条件。     

行距对马铃薯农艺性状及产量的影响

试验采用随机区组试验设计,大垄双行,整薯播种。在同一密度下对不同行距间的各指标进行比较及单因素方差分析。旨在为马铃薯生产和机械化作业提供理论依据。结果表明:在12株·m~(-2)和9株·m~(-2)的种植密度下,主茎数、结薯数、产量都是随行距的增加而呈现递减的变化趋势;在7.2株·m~(-2)的种植密度下,主茎数、结薯数、产量是随行距的增加而呈现"增-减-增"的变化趋势;同一密度下,淀粉含量随行距增加变化不明显,大部分维持在15%~16%之间。总体来看,同一密度下不同行距间对主茎数、结薯数、产量及淀粉含量的影响均差异不显著。     

南京市绿地规划发展方向初探--以南京市绿地系统规划（2013-2020）为例

对最新版本的《南京市绿地系统规划》(2013-2020)进行分析与研究，综合相关规划文件，对南京市近几年绿地规划、建设内容进行回顾与评价，总结南京市在绿地规划方面的可取与不足之处。对南京城市的历史沿革、山水格局、绿地现状、自身定位、发展趋势进行思考，结合国内政策、国外理念等因素统筹地对南京未来的绿地发展方向进行展望与研究，包括绿地宏观布局层面、中观联系层面、微观建设层面3方面。     

Soil aggregation: Influence on microbial biomass and implications for biological processes

Our 1988 paper, describing the effects of cultivation on microbial biomass and activity in different aggregate size classes, brought together the ‘aggregate hierarchy theory’ and the ‘microbial biomass concept’. This enabled us to identify the relationships between microbial and microhabitat (aggregate) properties and organic matter distribution and explain some of their responses to disturbance. By combining biochemical and direct microscopy based quantification of microbial abundance with enzyme activities and process measurements, this study provided evidence for the role of microbial biomass (especially fungi) in macroaggregate dynamics and carbon and nutrient flush following cultivation. In the last ten years environmental genomic techniques have provided much new knowledge on bacterial composition in aggregate size fractions yet detailed information about other microbial groups (e.g. fungi, archaea and protozoa) is lacking.We now know that soil aggregates are dynamic entities – constantly changing with regard to their biological, chemical and physical properties and, in particular, their influences on plant nutrition and health. As a consequence, elucidation of the many mechanisms regulating soil C and nutrient dynamics demands a better understanding of the role of specific members of microbial communities and their metabolic capabilities as well as their location within the soil matrix (e.g. aggregates, pore spaces) and their reciprocal relationship with plant roots. In addition, the impacts of environment and soil type needs to be quantified at the microscale using, wherever possible, non-destructive ‘in situ’ techniques to predict and quantify the impacts of anthropogenic activities on soil microbial diversity and ecosystem level functions.