A Method for Evaluating the Morphological Diversity of Strawberry Leaves in Natural Populations

A method for comparing polymorphic characters is proposed. As an example, the morphological diversity of strawberry leaves is evaluated. Initially, the factors determining leaf shape and the main directions of its variation are identified. These directions are used as coordinates outlining the space of possible realizations of the character. The polymorphic sets of real leaves from individual populations differ in being located in different parts of this space.     

Ultrastructure effects of omethoate and cypermethrin insecticides on maize seedlings

Increasing studies suggest that insecticides are one of the plant stress elements that affect plant growth and productivity by interfering with cell metabolic and biochemical activities. Here, we show that the application of commonly used pesticides omethoate and cypermethrin on maize (Zea mays L. cv. Luyu 9) seedling leaves resulted in adverse effects on leaf ultrastructure changes under laboratory conditions. Electron microscopic studies reveal that the topical application of organophosphorus insecticide omethoate causes direct injury of leaf ultrastructures including cell wall breakdown of abaxial epidermis cells, inner cells, stomata guard cells; degradation of mitochondrial membrane, and chloroplast envelope membrane; and abnormal changes of lamella arrangement of chloroplast. And the topical application of cypermethrin insecticide causes plasmolysis of cells of the adaxial epidermis, mitochondrial cristae are degraded, and loosen arranged lamella of amyloplasts. All these changes indicated that omethoate and cypermethrin are stress factors that caused adverse effects on plant ultrastructures and biochemical molecules.     

开花后小麦地上部镉、砷分布及其转运特征

为了探明小麦开花后叶片和茎节对籽粒中镉(Cd)和砷(As)累积的影响效应,采用田间小区试验,研究了山农28(SN28)和济麦22(JM22)两个小麦品种地上部各器官Cd和As的分布规律和迁移特征.结果表明,在灌浆期,小麦地上部的Cd主要分布在节中,Cd由节间3到节2、节间2到节1和叶鞘1到节1的转运能力显著强于其他部位.在成熟期,Cd主要分布于叶片中,Cd由叶鞘到叶片和由节1到穗轴的转运能力显著增强.此外,JM22中颖壳到穗轴和穗轴到籽粒的Cd转运能力显著低于SN28,使JM22的穗轴、颖壳和籽粒中Cd含量与SN28相比分别显著降低了22.3%、 40.8%和44.4%.同时,从灌浆期到成熟期小麦地上部的As主要分布于叶片中,且JM22颖壳和籽粒中As含量显著低于SN28,降幅分别为25.8%和33.3%.在灌浆期和成熟期,小麦中As转运系数由叶鞘到节显著高于叶到叶鞘和节到节间,平均增幅为438%和190%.此外,JM22中As由颖壳到籽粒和穗轴到籽粒的转运系数分别比SN28显著降低40.6%和44.4%.总之,开花后小麦旗叶、节1和穗轴调控了Cd转运及其在籽粒的累积,而小麦的叶3、旗...     

中国生态脆弱区叶面积指数变化的主导气象因子研究

开展气候变化背景下中国生态脆弱区叶面积指数（LAI）变化的主导气象因子研究,对揭示该区陆地生态系统的变化规律和生态系统对气候变化的动态响应具有重要意义,并为生态恢复建设提供科学依据。基于CN0 5.1气象数据和全球陆表特征参量（GLASS）LAI产品,利用主成分分析方法研究了中国生态脆弱区1982—2017年LAI的变化特征及其主导气象因子。结果显示：1982—2017年,中国生态脆弱区气温基本呈上升趋势,而降水趋势的区域差异显著。大部分生态脆弱区LAI呈增长趋势,包括干旱半干旱、黄土高原、青藏高原和西南岩溶山地石漠化脆弱区大部,以及北方农牧林草脆弱区西部和东南部、南方农牧脆弱区北部和东南部。中国生态脆弱区LAI增长的主导气象因子是气温,其中生态脆弱区大部LAI增长的主导气象因子是日平均气温,而干旱半干旱脆弱区西部和南方农牧脆弱区LAI增长的主导气象因子分别是和日最低和最高气温。研究表明,在研究时段升温对我国生态脆弱区植被生长有积极影响,但在一些区域受湿度状况调制。     

兰州市叶面尘磁性与黑碳特征对大气污染的响应

通过采集兰州市不同功能区小叶黄杨和刺柏叶片样品,对叶片表面滞尘量、叶表颗粒物磁性特征和黑碳（EC）浓度进行系统分析,探究其对周围大气污染的响应.结果显示,小叶黄杨和刺柏叶表颗粒物磁性特征以低矫顽力的亚铁磁性矿物为主导,磁晶体粒径以假单畴（PSD）颗粒为主.交通区小叶黄杨和刺柏饱和等温剩磁（SIRM）（489.40×10^-6A,290.73×10^-5A·m²/kg）显著高于公园（99.56×10^-6A,74.00×10^-5A·m²/kg）和生活区（61.91×10^-6A,209.79×10^-5A·m²/kg）,表明SIRM明显受到周围环境中污染物浓度的影响.小叶黄杨和刺柏叶表颗粒物亚铁磁性矿物浓度与黑碳浓度的高值分布区域在空间上具有一致性,并且二者高度相关（r=0.94,0.94;P<0.0001）,表明二者来源具有一致性.同时,不同采样高度不同树种叶片磁性对叶表颗粒物中黑碳浓度均有稳定的指示性,进一步表明叶表颗粒物SIRM可以作为指示叶表颗粒物黑碳污染的重要磁学参数.以城市绿化植物叶片为载体的环境磁学研究可实现颗粒物污染高空间分辨率的环境友好型监测.     

Evaluating weather effects on interannual variation in net ecosystem productivity of a coastal temperate forest landscape: A model intercomparison

Forest productivity is strongly affected by seasonal weather patterns and by natural or anthropogenic disturbances. However weather effects on forest productivity are not currently represented in inventory-based models such as CBM-CFS3 used in national forest C accounting programs. To evaluate different approaches to modelling these effects, a model intercomparison was conducted among CBM-CFS3 and four process models (ecosys, CN-CLASS, Can-IBIS and 3PG) over a 2500 ha landscape in the Oyster River (OR) area of British Columbia, Canada. The process models used local weather data to simulate net primary productivity (NPP), net ecosystem productivity (NEP) and net biome productivity (NBP) from 1920 to 2005. Other inputs used by the process and inventory models were generated from soil, land cover and disturbance records. During a period of intense disturbance from 1928 to 1943, simulated NBP diverged considerably among the models. This divergence was attributed to differences among models in the sizes of detrital and humus C stocks in different soil layers to which a uniform set of soil C transformation coefficients was applied during disturbances. After the disturbance period, divergence in modelled NBP among models was much smaller, and attributed mainly to differences in simulated NPP caused by different approaches to modelling weather effects on productivity. In spite of these differences, age-detrended variation in annual NPP and NEP of closed canopy forest stands was negatively correlated with mean daily maximum air temperature during July-September (T_amax) in all process models (R² = 0.4-0.6), indicating that these correlations were robust. The negative correlation between T_amax and NEP was attributed to different processes in different models, which were tested by comparing CO₂ fluxes from these models with those measured by eddy covariance (EC) under contrasting air temperatures (T_a). The general agreement in sensitivity of annual NPP to T_amax among the process models led to the development of a generalized algorithm for weather effects on NPP of coastal temperate coniferous forests for use in inventory-based models such as CBM-CFS3: NPP′ = NPP − 57.1 (T_amax − 18.6), where NPP and NPP′ are the current and temperature-adjusted annual NPP estimates from the inventory-based model, 18.6 is the long-term mean daily maximum air temperature during July-September, and T_amax is the mean value for the current year. Our analysis indicated that the sensitivity of NPP to T_amax was nonlinear, so that this algorithm should not be extrapolated beyond the conditions of this study. However the process-based methodology to estimate weather effects on NPP and NEP developed in this study is widely applicable to other forest types and may be adopted for other inventory based forest carbon cycle models.     

5种喀斯特生境植物叶片解剖结构特征

对我国喀斯特地区几种不同生活型植物——常绿植物桂花(Osmanthus fragrans Lour.)、竹叶椒(Zanthoxylunarmatum DC),落叶植物红背山麻杆(Alchornea trewioides Muell.),草本植物石上莲(Oreocharis benthamii Clark var.reticulata Dunn),草本植物单枝竹(Monocladus saxatilis Chia,Fung et Y.L.Yang)的叶片形态解剖特征(叶片厚度、气孔密度、气孔结构等)进行了观察和测量,发现差异较大:竹叶椒角质层较厚,红背山麻杆的叶片较厚,单枝竹叶片上下表皮均有气孔,桂花气孔密度最高,石上莲的气孔纵径最长.结果表明:1)喀斯特生境植物存在着普遍的抗旱功能性解剖结构,用以适应喀斯特地区的特殊干旱气候;2)不同生活型植物对干旱选择的策略不同.表3参20     

Tamarix and Diorhabda Leaf Beetle Interactions: Implications for Tamarix Water Use and Riparian Habitat

Tamarix leaf beetles (Diorhabda carinulata) have been widely released on western United States rivers to control introduced shrubs in the genus Tamarix, with the goals of saving water through removal of an assumed high water‐use plant, and of improving habitat value by removing a competitor of native riparian trees. We review recent studies addressing three questions: (1) to what extent are Tamarix weakened or killed by recurrent cycles of defoliation; (2) can significant water salvage be expected from defoliation; and (3) what are the effects of defoliation on riparian ecology, particularly on avian habit? Defoliation has been patchy at many sites, and shrubs at some sites recover each year even after multiple years of defoliation. Tamarix evapotranspiration (ET) is much lower than originally assumed in estimates of potential water savings, and are the same or lower than possible replacement plants. There is concern that the endangered southwestern willow flycatcher (Empidonax trailli extimus) will be negatively affected by defoliation because the birds build nests early in the season when Tamarix is still green, but are still on their nests during the period of summer defoliation. Affected river systems will require continued monitoring and development of adaptive management practices to maintain or enhance riparian habitat values. Multiplatform remote sensing methods are playing an essential role in monitoring defoliation and rates of ET on affected river systems.     

Deer predation on leaf miners via leaf abscission

The evergreen oak Quercus gilva Blume sheds leaves containing mines of the leaf miner Stigmella sp. (Lepidoptera: Nepticulidae) earlier than leaves with no mines in early spring in Nara, central Japan. The eclosion rates of the leaf miner in abscised and retained leaves were compared in the laboratory to clarify the effects of leaf abscission on leaf miner survival in the absence of deer. The leaf miner eclosed successfully from both fallen leaves and leaves retained on trees. However, sika deer (Cervus nippon centralis Kishida) feed on the fallen mined leaves. Field observations showed that deer consume many fallen leaves under Q. gilva trees, suggesting considerable mortality of leaf miners due to deer predation via leaf abscission. This is a previously unreported relationship between a leaf miner and a mammalian herbivore via leaf abscission.     

The role of plant leaf attributes in linking land use to ecosystem function in temperate grassy vegetation

We tested predictions of the relative changes in plant leaf traits in response to land uses in Australian eucalypt grassy ecosystems. Predictions were determined from responses observed in European landscapes in relation to disturbances associated with agricultural land uses. We measured specific leaf area (SLA) and leaf dry matter content (LDMC) across five land uses: reference sites (closest to pre-European state), native pastures (unfertilized), fertilized pastures, sown pastures (cultivated and fertilized) and enriched grassland (previously fertilized, no longer grazed). Leaves were expected to have higher SLA and lower LMDC at sites with increasing fertility and/or disturbance.The predictions were confirmed, with SLA increasing progressively in land uses associated with (1) grazing; (2) grazing and fertilization; (3) grazing, fertilization and cultivation. Values for LDMC were closely (but inversely) correlated with those of SLA. For both traits, there were relationships with available soil phosphorus but not with soil total nitrogen. The positive correlation of SLA with phosphorus was not evident above 30 mg kg⁻¹, the recommended level of phosphorus for improved pastures.Results confirm patterns of leaf-trait response to disturbance that reflect fundamental constraints to plant survival in habitats with different levels of resources and disturbances. A conservative strategy for low productivity undisturbed habitats is associated with low SLA and high dry matter content in contrast to fertile disturbed habitats which select for high SLA and low dry matter content. The changes in leaf traits across land uses resulted from species substitution rather than variation within species across sites, and most notably the replacement of native by annual exotic species as land use intensifies.Recommended fertilization rates for pasture production convert the ground layer to plants with soft, digestible leaves, that are responsive to fertilizer and desirable for livestock production. However, fertilization also drastically reduces the diversity of native plants and annual plants tend to dominate. The trade-off associated with high production includes increased vulnerability to soil erosion, due to reduced plant cover and low persistence of cover. If alternative ecosystem values such as erosion control, water quality, salinity control and biodiversity persistence are required, incentives may be needed to offset the loss of production that can be gained from fertilizer application.