关于植被激光荧光遥感的若干基本问题

本文较系统地论述了应用激光荧光技术进行植被遥感的若干基本向题。其中包括原理、荧光探测的植物生理学基础、植物荧光光谱特征的意义及激光诱导荧光遥感方法的应用前景等。     

陆地表面复杂过程模式及耦合植物生态过程的研究进展

植物生态过程在陆面过程模式起重要作用，本文从陆面过程的发展历程分析植物生态过程与其耦合的状况，包括在耦合过程中先后出现的孤立的物理过程模式、简单的耦合生物过程模式、机理的植物生理－生物化学耦合模式、复杂的生物地球化学循环耦合模式和动态的生物地理模型耦合模式。最后探讨了陆面过程模式的进一步发展的方向。     

Vegetation change in the coastal-lowland rainforest at Avai'o'vuna Swamp, Vava'u, Kingdom of Tonga

Avai'o'vuna Swamp, a small coastal wetland in Vava'u, Kingdom of Tonga, produced a 4500-year pollen and sediment record. Results are: (1) a mid-Holocene sea level highstand is confirmed for Tonga between about 4500 and 2600 ¹⁴C yr B.P.; marine clay contains pollen from mangroves (Rhizophora mangle), coastal forest trees (Barringtonia asiatica and Cocos nucifera), and rainforest trees (Alphitonia, Rhus, Hedycarya and Calophyllum). (2) Microscopic charcoal first appeared at 2600 ¹⁴C yr B.P., coincident with the arrival of Polynesians. (3) Cocos, Pandanus, Excoecaria, Macaranga, and Elaeocarpaceae pollen reflects the establishment of a mixed coastal-lowland rainforest in the last 2500 years. (4) The loss of Hedycarya, Elaeocarpus, Calophyllum, and Guettarda and the reduction of Terminalia and taxa in the Papilionaceae family by about 1000 years ago may be due to habitat destruction and the loss of dispersal capabilities of some species through the extinction of the two largest pigeons in Tonga.     

Effect of structure and texture on infiltration flow pattern during flood irrigation

Understanding the flow pattern of water and solute in subsurface soils is critically important in the fields of agricultural and environmental sciences. Dye tracer tests using a flood irrigation of Brilliant Blue FCF solution (5 g l^-1) and excavation method was performed to investigate the effect of texture and structure on the infiltration pattern at three different field soils developed from granite (GR), gneiss (GN) and limestone (LS). The GR soil showed a homogeneous matrix flow in the surface soil with weak, medium granular structure and a macropore flow along pegmatitic vein and plant root in C horizon. The surface horizon (A1) of GN soil with moderate, medium granular structure and many fine roots had matrix flow. The fingering occurred at the interfaces of sandy loam A horizon and loamy sand C horizon in GR soil and loam A1 horizon and sandy loam A2 horizon in GN soil. The LS soil with strong, coarse prismatic structure and the finest texture showed a macropore flow along cracks and had the deepest penetration of the dye tracer. The macropore (crack and vein), layer interface and plant root induced the preferential flow in the studied soils.     

应用遥感图像分析植物群落的分布图式

本文探讨了依据遥感图像,从整体上自动地(或半自动地)研究了植物群落的方法。针对植物群落的复杂性,本文研究了下述三个方面的内容:(1)划分植物群落,并从图像上分析群落的分异规律;(2)将植物群落序列结构化;(3)确定植物群落的分布图式。上述三个方面研究成果已应用于西藏班戈地区的植物群落分析中,事实证明,这是一种新颖且有意义的植物学研究方法     

大同市饮料厂天然矿泉水水质评价

矿泉水井位于大同断陷盆地西侧边部的口泉断裂附近。含水层为中更新统中砂和中粗砂。地下水受口泉断裂带基岩裂隙水补给。１９９３年１２月经山西省地质矿产局和地质矿产部联合鉴定，符合《饮用天然矿泉水》国家标准（ＧＢ８５３７－８７），属含锶重碳酸－镁钙钠型矿泉水。     

Detailed paleoseismological research on the flank of the Lake Imandra depression (Kola region): New approaches and results

We present results of detailed paleoseismological research at the key site on the flank of the Lake Imandra depression (Kola region, northeast of the Fennoscandian Shield). Study of various groups of paleoseismic deformations in the fault zone and application of new methods and approaches made it possible to recognize a segment of a large seismotectonic zone where violent earthquakes occurred repeatedly at the end of the Late Glacial and in the Holocene. The dates of earthquakes and the location of their foci are determined.     

Dating basal peat: The geochronology of peat initiation revisited

Attributing the start of peat growth to an absolute timescale requires dating the bottom of peat deposits overlying mineral sediment, often called the basal peat. Peat initiation is reflected in the stratigraphy as a gradual transition from mineral sediment to increasingly organic material, up to where it is called peat. So far, varying criteria have been used to define basal peat, resulting in divergent approaches to date peat initiation. The lack of a universally applicable and quantitative definition, combined with multiple concerns that have been raised previously regarding the radiocarbon dating of peat, may result in apparent ages that are either too old or too young for the timing of peat initiation. Here, we aim to formulate updated recommendations for dating peat initiation. We provide a conceptual framework that supports the use of the organic matter (OM) gradient for a quantitative and reproducible definition of the mineral-to-peat transition (i.e., the stratigraphical range reflecting the timespan of the peat initiation process) and the layer defined as basal peat (i.e., the stratigraphical layer that is defined as the bottom of a peat deposit). Selection of dating samples is often challenging due to poor preservation of plant macrofossils in basal peat, and the representativity of humic and humin dates for the age of basal peat is uncertain. We therefore analyse the mineral-to-peat transition based on three highly detailed sequences of radiocarbon dates, including dates of plant macrofossils and the humic and humin fractions obtained from bulk samples. Our case study peatland in the Netherlands currently harbours a bog vegetation, but biostratigraphical analyses show that during peat initiation the vegetation was mesotrophic. Results show that plant macrofossils provide the most accurate age in the mineral-to-peat transition and are therefore recommendable to use for ¹⁴C dating basal peat. If these are unattainable, the humic fraction provides the best alternative and is interpreted as a terminus-ante-quem for peat initiation. The potential large age difference between dates of plant macrofossils and humic or humin dates (up to ∼1700 years between macrofossil and humic ages, and with even larger differences for humins) suggests that studies reusing existing bulk dates of basal peat should take great care in data interpretation. The potentially long timespan of the peat initiation process (with medians of ∼1000, ∼1300 and ∼1500 years within our case study peatland) demonstrates that choices regarding sampling size and resolution need to be well substantiated. We summarise our findings as a set of recommendations for dating basal peats, and advocate the widespread use of OM determination to obtain a low-cost, quantitative and reproducible definition of basal peat that eases intercomparison of studies.     

滇池北岸大清河湿地景观植物配置研究

通过对大清河湿地植物分层次的筛选,根据生态学、湿地学、植物学、美学相关理论,依据植物的生态习性及湿地的区域划分,将大清河湿地划分为深水区、浅水区、沼泽区、水边及岸带区和陆地区五大区域,并分层次进行相应的植物配置,提出挺水植物+浮水植物+沉水植物、挺水植物+浮水植物、挺水植物片植、单层乔木片植、草本+挺水植物、乔木+灌木+草本6种配置模式。