乡村园林景观规划设计研究——以周村生态体验园为例

乡村园林的景观规划设计,为乡村旅游业的发展注入了新的活力,是不可或缺的可持续发展产业中坚力量。设计具有独特人文气息与魅力的生态文化景观是乡村园林景观规划设计急需解决的问题。从景观规划相关理念出发,阐释了乡村园林景观的运行模式和类型,以及景观生态学等原理,提出了设计的原则和方法。以周村生态体验园的景观规划设计为实例,提出了各方详细的设计思路,得出乡村园林景观规划设计策略。乡村园林生态体验园的设计特色,决定了它与周边互相依存的生态关系。在自然环境中渗透景观设计要素,能够很好的传达当地的历史文化传统,塑造乡村旅游特色,为乡村的经济发展提供更加坚强的后盾。研究结果也可为今后乡村园林景观实际项目的可持续发展式规划和设计提供理论基础。     

历史街区街道界面景观要素及保护策略研究——以青岛鱼山历史文化街区为例

指出了历史文化街区是人类文明的“活化石”,是人类历史文化遗迹和日常生活的重要空间载体。历史文化街区的街道景观是街道展示景观的主要载体,通过对街道界面景观要素的提取、归纳与总结,得出街道界面景观要素由底界面、侧界面以及顶界面三大核心要素组成,并将其应用到鱼山历史文化街区街道景观内进行了分析研究,提出了一些保护策略。旨在进一步了解历史文化街区街道界面景观要素构成,为历史文化街区景观的保护提供更加清晰的思路。     

面向老龄化社会的户外环境植物景观与健康效益评价模型建构

为了促进国内基于健康视角下户外植物景观可量化评价机制的形成与完善，归纳总结了健康景观以及普通植物景观中广泛存在的对人身心健康有促进作用的因素——植物的健康效益。从植物景观对人身心健康的影响机制手，分析户外景观环境中健康性要素构成，深入探究植物景观与老年人身心健康的作用机理，并初步构建了基于植物健康效益的适老性户外植物景观评价指标体系。     

食用菌创意景观设计

通过对食用菌创意景观设计进行研究,分析具体的设计原则和设计方法,在食用菌创意景观打造过程中融入艺术技巧和文化特色,营造独特的食用菌旅游观光资源,创造更多农业生产附加价值。     

Regional and local scale variations in soil organic carbon stocks in West Greenland

The soil organic carbon (SOC) pool of the Northern Hemisphere contains about half of the global SOC stored in soils. As the Arctic is exceptionally sensitive to global warming, temperature rise and prolonged summer lead to deeper thawing of permafrost‐affected soils and might contribute to increasing greenhouse gas emissions progressively. To assess the overall feedback of soil organic carbon stocks (SOCS) to global warming in permafrost‐affected regions the spatial variation in SOCS at different environmental scales is of great interest. However, sparse and unequally distributed soil data sets at various scales in such regions result in highly uncertain estimations of SOCS of the Northern Hemisphere and here particularly in Greenland. The objectives of this study are to compare and evaluate three controlling factors for SOCS distribution (vegetation, landscape, aspect) at two different scales (local, regional). The regional scale reflects the different environmental conditions between the two study areas at the coast and the ice margin. On the local scale, characteristics of each controlling factor in form of defined units (vegetation units, landscape units, aspect units) are used to describe the variation in the SOCS over short distances within each study area, where the variation in SOCS is high. On a regional scale, we investigate the variation in SOCS by comparing the same units between the study areas. The results show for both study areas that SOCS are with 8 kg m^?2 in the uppermost 25 cm and 16 kg m^?2 in the first 100 cm of the soil, i.e., 3 to 6 kg m^?2 (37.5%) higher than existing large scale estimations of SOCS in West Greenland. Our approach allows to rank the scale‐dependent importance of the controlling factors within and between the study areas. However, vegetation and aspect better explain variations in SOCS than landscape units. Therefore, we recommend vegetation and aspect for determining the variation in SOCS in West Greenland on both scales.     

Spatiotemporal patterns of mountain whitefish (Prosopium williamsoni) in response to a restoration of longitudinal connectivity

To examine the role of longitudinal connectivity on the spatial and temporal dynamics of mountain whitefish (Prosopium williamsoni), we quantified movement and population dynamics following installation of the Landsburg Dam fishway, Cedar River, WA, USA. Mountain whitefish is widely distributed, poorly studied and not the focus of restoration. Before the fishway, mountain whitefish were not observed above the dam. Here, we focus on snorkel counts collected at reach and mesohabitat (e.g. pools) scales over 11 summers on the 20‐km above‐dam segment following restoration. A camera within the ladder provided number, size and movement timing, thereby informing on behaviour and recolonisation. Segment‐scale abundance increased following fish passage reaching an asymptote in 7 years, and mountain whitefish were detected throughout the main stem in 10 years. Annual movement through the ladder increased over time and was positively correlated with instream abundance and discharge, but negatively correlated with water temperature. About 60% of fish movements occurred in spring and early summer, potentially for foraging opportunities. Reach‐scale abundance peaked between 7 and 10 km from the dam; deep, cool (~10.6 to 11.6°C) conditions characterised these reaches. At the mesohabitat scale, mountain whitefish detection increased with depth and velocity after accounting for distance from the dam. Our results show how restoring longitudinal connectivity allowed this nontarget species to colonise newly available habitat. Their response supports the critical roles of longitudinal connectivity and environmental conditions, that manifest at different spatial scales, in dictating how freshwater fish respond to habitat disturbance.     

喀斯特地区贫困乡村景观格局及生态风险分析

为揭示喀斯特不同地貌乡村景观格局及生态风险的差异，以贵州省石门乡（喀斯特中山）、宗地镇（峰丛洼地）、周覃镇（低山丘陵）、掌布镇（峰丛峡谷）4种典型喀斯特地貌的贫困乡村为例，利用ArcGIS 10.1、Fragstats 4.2软件对乡村景观格局进行分析，并定量评价景观生态风险。结果表明，不同地貌乡镇的各斑块面积占比（PLAND）、斑块数量（NP）、斑块密度（PD）、斑块形状指数（LSI）存在较大差异。掌布镇景观水平上指标特征与石门乡相反，而宗地镇和周覃镇景观水平上指标特征介于掌布镇和石门乡之间。周覃镇与掌布镇景观生态风险低于石门乡以及宗地镇。石门乡中北部景观生态风险高于东部和西南部，与中北部以未利用地和建设用地景观为主、东部和西南部以灌草丛和林地景观为主有关。宗地镇中部比重较大的未利用地使其景观生态风险较高，而东部和西部比重较大的灌草丛使其景观生态风险较低。除西部地区外，周覃镇大部分地区耕地、林地和灌草丛的连片分布使得景观生态风险较低。中北部占主导地位的林地以及南部各地类的镶嵌分布，使掌布镇中北部景观生态风险明显低于南部。研究结果可为喀斯特地区乡村土地利用调控及生态风险管理提供科学依据。     

硬质海岸防护设施的生态效应与对策

虽然滨海地区占地球陆地面积不足4%，但沿海生境是全球最有价值的自然资源之一。世界上超过三分之一的人口生活在距海岸线100 km的范围内。气候变化和人类活动使得全球海岸侵蚀和风暴潮威胁加重。海岸防护可以有效抵御海岸侵蚀、风暴风险和海平面上升。本文概述了全球主要沿海国家和地区（欧盟、美国、中国）海岸硬化情况以及海岸硬化带来的生态效应。欧洲海岸线硬化比例为10%（2006年），美国海岸的硬化比例为14%（2015年），而中国海岸线的硬化比例近60%（2014年）。海岸硬化会引起滨海湿地重要物理、化学和生物过程的改变，生境丧失和破碎化，以及生物连通性的改变。增加硬化设施的结构复杂性或由混合型海岸代替传统硬化海岸可以减轻海岸硬化对滨海湿地生态系统的威胁，但对硬质海岸和混合型海岸的生态服务功能以及抵御风暴能力的评估还比较缺乏，有待进一步研究。     

高压雾化设备在现代农业中的应用

高压雾化设备指利用高压雾化主机将经过精密过滤处理的水,输送到造雾专用高压管网,最后到达造雾专用喷头喷出成雾的系统。高压雾化设备在现代农业中主要应用在设施农业降温、加湿、植保以及景观等方面。其中,设施温室降温时依据地域的气候条件、系统投资、后期维护费用、运行费用、降温效果以及对温室湿度的影响等各种因素,来综合考虑高压雾化与其他降温方式联合使用降温,以期达到最佳效果。根据工程项目使用高压雾化设备的经验总结了相关建议,以期为实际生产提供参考。     

Using knowledge of behaviour and optic physiology to improve fish passage through culverts

Culverts reduce connectivity for aquatic animals by being both a hydraulic and physical barrier. However, altered light intensity may also be a behavioural barrier to fish movement, especially for diurnal species that have adapted to moving when it is light. We propose that knowledge of optical physiology and fish behaviour, two important mechanisms underpinning movement, can inform efforts to improve fish movement through culverts. We firstly review the sensory systems of fish with reference to visual sense and explore how this affects fish movement. We then highlight theoretical knowledge that can help us understand fish behaviour and the potential mismatch between the conditions under which fish have evolved and altered conditions within culverts. We describe potential knowledge gaps and directions for future research to improve our understanding of how culverts may affect fish movement. Finally, we explore the potential costs and ecological benefits of different mitigation options to identify those with the most promise for managing the light environment in culverts to facilitate movement. For researchers and managers exploring this subject, we suggest an approach that: (a) identifies light requirements for movement by different species, (b) tests movement under different light conditions and (c) considers an integrative assessment method for testing fish behaviour around culverts. Understanding how optical physiology, fish behaviour and culvert design influence fish movement can improve connectivity for a range of species.