沈阳地区主要树木净化SO2潜力及植树定额的估算

通过实地测定和熏烟实验 ,揭示了沈阳地区不同类型树木的总生物量、SO2 吸收强度和S的吸转周期数 ,三者的乘积是树木净化SO2 的总潜力 ,为 4 .39× 10 6kg ,约占沈阳年排S量 12 0× 10 6kg的 3.6 6 % .树木平均最高可净化S 12 .19kg·km-2 ·d-1.沈阳现有树种组成的平均吸S量为 0 .70kg株-1·年 -1;若以阔叶乔木平均吸S量 1.35kg·株 -1·年-1计 ,欲全部净化沈阳的年排S量 ,需要阔叶乔木 8888× 10 4株 ,相当于现有树木株数的 12 .9倍 .经推算 ,在增强环保力度、减少年排S量 2 0 %的条件下 ,再扩植现有树木1.0倍的阔叶乔木 ,即可使沈阳大气SO2 浓度下降到 0 .0 6mg·m-3 以下 ,成为环境达标城市     

沈阳地区主要树木净化SO2潜力及植树定额的估算

通过实地测定和熏烟实验,揭示了沈阳地区不同类型树木的总生物量、SO₂吸收强度和S的吸转周期数,三者的乘积是树木净化SO₂的总潜力,为4.39×10⁶kg,约占沈阳年排S量120×10⁶kg的3.66%.树木平均最高可净化S12.19kg·km^-2·d^-1.沈阳现有树种组成的平均吸S量为0.70kg株^-1·年^-1;若以阔叶乔木平均吸S量1.35kg·株^-1·年^-1计,欲全部净化沈阳的年排S量,需要阔叶乔木8888×104株,相当于现有树木株数的12.9倍.经推算,在增强环保力度、减少年排S量20%的条件下,再扩植现有树木1.0倍的阔叶乔木,即可使沈阳大气SO₂浓度下降到0.06mg·m^-3以下,成为环境达标城市.     

不同环境下植物的净化能力与绿地定额的关系

本文通过对SO_2污染区与非污染区几种绿化植物的光合作用强度、吸收SO_2能力以及一些生物学性状的测定,计算了维持一个人呼吸达到碳氧平衡所需被测植物的株数和占地面积;净化已知SO_2总量应有的绿地面积,并探讨了植物的净化能力与绿地定额的关系。     

鄱阳湖水生维管束植物生物量及其合理开发利用的初步建议

用4种不同的计算方法测定了鄱阳湖水生维管束植物的生物量。根据22个断面,199个采集点,398个样方的测定结果,得出鄱阳湖水生维管束植物的年生产量为431.76万吨(湿重),即相当于5.44×10~(-15)焦耳(能量)。其中,马来眼子菜、苦草和黑藻等3种合计约占总生物量的71.46%。全湖可供草食性鱼类食用的水生维管束植物约占总量的86.9%。文中还对4个植物带和9个群丛生物量的分布规律进行了讨论。提出了人工增殖草食性鱼类,调整湖中植被组成,保护和种植水生经济植物等合理开发利用鄱阳湖水生植物资源的初步建议。     

园林绿化植物对大气二氧化硫和氟化物污染的净化能力及修复功能

研究32种盆栽于佛山市污染区的城市园林绿化植物对大气二氧化硫(SO2)和氟化物的净化能力及其对大气污染的修复功能。结果显示,竹节树、傅园榕等14种植物对SO2、氟化物等污染气体不但具有较强的抗性,而且具有较高的吸收净化能力,叶片平均含硫量达17442(11754—27658mg kg^-1 DW),是清洁区(5988mg kg^-1 DW)的2．9倍;平均含氟量达3725．9(1954．9—5331.7mg kg^-1 DW),是清洁区(1703：mg kg^-1DW)的21倍。表明这些植物对大气SO2、HF复合污染具有很好的净化能力和修复功能。是值得推广的城市园林绿化树种。     

模拟人工湿地植物丰富度对硝氮去除及净温室效应的影响

用水培微宇宙模拟人工湿地,研究植物丰富度对系统氮去除的影响,并整合多项功能评估系统净温室效应。选择水芹(Oenanthe javanica)、羊蹄(Rumex japonicus)、虉草(Phalaris arundinacea)和吉祥草(Reineckia carnea)4个物种,进行单种及混种2个处理,供给以硝氮(NO3--N)为唯一氮形态的模拟污水。结果表明:混种系统出水氮浓度显著低于单种系统,即高丰富度具有更高氮去除效率;混种系统的地上和总生物量显著高于单种系统;在单种系统中反硝化是最主要的氮去除途径,而混种系统主要通过增强植物吸收提高净化效率;混种系统比单种系统排放更多的CH4和N2O;混种提高了生物量,如果这些植物用于生物燃料则相当于强化了CO2减排潜力;综合CO2、CH4和N2O,提高植物丰富度会显著降低系统净增温潜力(GWP)。     

低磷胁迫水稻根部基因表达谱研究

磷是植物体内重要的营养元素．土壤中含磷总量丰富,但能被植物直接吸收利用的可溶性磷含量却很低,这成为制约农作物产量的重要因素．本研究利用水稻寡核苷酸芯片分析了水稻根部在正常营养条件和低磷胁迫6,24,72h3个时间点的全基因组表达谱．和正常营养条件下相比,低磷胁迫水稻根部共发现795个差异表达基因．差异表达基因功能分析发现：（1）磷酸盐转运蛋白、酸性磷酸酶、RNA酶等基因上升表达;（2）糖酵解等与能量代谢相关基因先上升后下降表达;（3）氮吸收和脂代谢相关基因改变其表达;（4）蛋白质降解、细胞衰老相关基因上升表达;（5）部分跨膜转运蛋白基因表达上调．研究结果为进一步揭示植物低磷胁迫反应机制,改善作物对磷吸收利用效率提供了有用的信息．     

我国陆地生态系统的植物太阳能利用率

本文计算分析了我国陆生植物在各种情况下的净初级生产力及其太阳能利用率。 计算表明,每年进入我国960万平方公里国土上的太阳总辐射Q和光合有效辐射PAR分别为13×10~(18)千卡和6.4×10~(18)千卡,其所含能量约合标准煤20,000亿吨和10,000亿吨。在充分利用我国光、温、水气候资源,而其他条件都处于最适状况时每年净初级气候潜力Y_(ptw)的全国总量为250亿吨(植物质干重,下同)。由植被产量的实际资料与气候因子的经验关系估算的自然植被产量Y_n的全国总量为每年70亿吨。 就全国加权平均单产而言,净初级光能潜力Y_p=87吨/公顷·年;净初级光温潜力Y_(pt)=50吨/公顷·年;净初级气候潜力Y_(ptw)=30吨/公顷·年;自然植被生产力Y_(?)=8吨/公顷·年;现阶段主要农作物的净初级实际生产力Y_α=8.7吨/公顷·年。各省区情况见表1。 太阳能利用率:就全国加权平均而言,如果把总辐射Q计为100％,则光合有效辐射PAR约占49％;具有最佳叶冠层的高产植物在生长盛期对Q的利用率上限为7％;相应于Y_p、Y_(pt),Y_(ptw)和Y_n的太阳能利用率R_p、R_(pt)、R_(ptw)和R_n分别为2.5％,1.4％、0.82％和0.22％,我国当前主要农作物的净初级产量对我国农田上Q的利用率R_α为0.28％。各省区情况见表2。     

树叶S含量与大气SO_2污染关系初探

树木是多年生植物,其生活周期长,对周围环境能持续地发生较大影响。在环境保护方面,树木通过叶片气孔吸收积累污染物质,净化环境。虽然,其吸收积累量与空气污染物浓度不成严格的比例关系,但它们之间仍具有一定的相关性。研究它们之间关系,分析树叶中污染物含量用作了解大气污染的手段;目前国内报道尚不多。本文就树叶中 S 含量与大气 SO_2浓度相互关系进行初步探讨,为开展环境质量生物学监测和评价提供依据。     

乡土水生植物对富营养化水体的净化效果研究

为了解乡土水生植物净化富营养化水体的效果,研究了广东地区5种乡土水生植物对2种富营养化水体总氮(TN)、总磷(TP)的净化效果和植物的生长状况。结果表明,与无植物空白相比,5种乡土植物使低、高浓度水体的TN去除率分别提高了3.8%～13.3%和13.2%～17.1%,TP去除率分别提高了15.2%～22.1%和11.3%～57.6%,其中野荸荠(Eleocharis plantagineiformis)适用于净化低氮水体;酸模叶蓼(Polygonumlapathifolium)适用于高氮水体;三白草(Saururuschinensis)适用于低磷水体;菱角(Trapa komarovii)适用于低氮或高磷水体;水龙(Ludwigia adscendens)对2种水体均有较好的净化效果,对高磷水体效果极佳。5种乡土植物在低、高浓度水体中均旺盛生长,水龙的生物量净增长率分别达375.5%和539.8%,表现最优,其次为菱角;水葫芦(Eichhorniacrassipes)则在高浓度水体中腐烂死亡,加重了水体污染。水龙、菱角对污染物的吸收作用较强,对P的吸收能力显著优于其他植物(P0.05)。因此,5种乡土植物均可作为广东地区富营养化水体修复的备选植物,其中水龙和菱角的开发潜力最大。     

小兴凯湖的水生植被及其生态作用

本文论述了小兴凯湖水生植物的种类组成、植被类型、生物量及其在湖泊淤积和渔业中的作用。该湖属老年期湖泊,水生维管束植物共有25科56种,优势种为竹叶眼子菜、荇菜、芦、菰等。植被类型可划分为沉水植被、浮叶植被和挺水植被等三个亚型,包括12个主要植物群丛。全湖水生植物总生物量(湿重)为196380吨;以植物现存量计算,草食性鱼类的年生产力应为78.75吨。由于水生植物大量繁殖,为减缓湖泊的垫平作用,可适量放养草食性鱼类,控制住水生植物的过量繁殖;同时引种一些经济水生植物,压住水中杂草的生长。     

三峡库区岸生植物秋华柳对水淹的光合和生长响应

 为阐明三峡库区岸生植物秋华柳(Salix variegata)对水淹的耐受机制,模拟三峡库区消落带水淹发生的情况,研究了在不同水淹时间和水淹深度处理下秋华柳的光合和生长特性。实验设置了对照(不进行水淹,常规供水管理)、水淹根部(植株置于水中, 植株地下部分被淹没)、水下0.5 m(植株置于水中,植株顶部在水面下0.5 m)和水下2 m(植株置于水中,植株顶部在水面下2 m)4个不同的水淹深度和0、10、20、40、60和90 d 6个不同的水淹时间处理,并测定了在不同水淹时间和水淹深度处理下秋华柳的光合作用、叶绿素荧光和生长。研究结果发现：随着水淹时间的延长,对照和水淹根部植株都具有高的净光合速率、表观量子效率和羧化效率。水淹40 d后,相同水淹深度处理秋华柳植株的净光合速率显著高于耐水湿环境的垂柳(Salix babylonica)(p<0.05)。水淹90 d后, 全淹处理植株的光合能力较对照有显著的下降(p<0.05),对照、水下0.5 m和水下2 m植株的净光合速率分别为13.2、10.1和8.05μmol CO2&#8226;m^－2&#8226;s^－1,同时全淹植株 PSII的最大光化学效率也有一定程度的下降,显著低于对照和水淹根部 处理的植株(p<0.05)。水淹40、60和90 d后,全淹植株的胞间CO₂浓度都高于对照和水淹根部植株。随着水淹时间的增加,水淹根部植株不定根数量不断增加,而全淹植株只有极少量的不定根产生。水淹根部植株的主茎长的增量、分枝数的增量、主茎新生叶片数、根生物量的积累和总生物量的积累都高于全淹植株,全淹植株在水淹过程中,其主茎长、分枝数、 主茎新叶数、根生物量和总生物量都有增加,同时其凋落叶片较多。水淹90 d后,秋华柳植株的存活率为100%。研究结果表明,秋华柳在经过较长时间的水淹后,表现出较强的光合和生长适应性,可以考虑将秋华柳列为三峡库区消落带植被构建的物种之一。     

籽粒苋R104生长发育与环境条件关系的研究

 本文对籽粒苋(Amaranthus cruentus)生长发育与气温、光照、水、肥和土壤含盐量等因子的关系,进行了试验研究,为在生长季节较短的地区(当地无霜期只有100天左右)推广应用于生产提供理论依据和技术措施。R104是一种喜温植物,在日平均温度达到10℃左右,才能出苗,当日平均温上升到20—23℃时,生长最为迅速,当日平均温下降到5℃左右时,生长处于停滞状态。它也是一种喜光的C4植物,在土壤水分不亏缺条件下,光照上升到14万Lx,亦不呈现萎蔫状态,在遮荫条件下,植株生长细弱矮小。适宜的土壤水分和肥力是发挥籽粒苋高产优势的重要条件,在气候温暖、阳光充足的生长季节,适时进行灌溉和施肥,能使它的产量成倍增加,每公顷青饲产量可达100t左右的高产。R104还具有较强的耐盐碱能力,在土壤pH值 8.5,含盐量0.6%以下,仍能正常生长发育,土壤含盐量达到0.8%,生长发育受到影响,产量明显下降。     

The life history of Ranunculus glacialis, an arctic-alpine perennial herb, in Finnish Lapland

Dynamics and performance of established individuals of Ranunculus glacialis at the time of peak flowering were monitored in a mountain area in Finnish Lapland for five years (1982–1986). The plants reproduced only sexually, and their spatial distribution in 40 1-m² quadrats was clumped. During the study period the mean density rose from 8.5 to 10.3 individuals m⁻². The mean annual growth rate and birth rate of the population was 4% and 8.5%, respectively. The mean annual death rate of established individuals was 3.7%. The estimated mean life expectancy of an established individual was 27 yr. Death rate per quadrat was positively related to R. glacialis density, but birth rate per quadrat was negatively related to the percentage cover of stones per quadrat. High R. glacialis density per quadrat had negative effects, but high nitrogen availability had positive effects on the number of leaves per individual. An important factor reducing flowering was small rodent herbivory. In the same genets, the correlation between the number of leaves per individual in year t and the number of flowers per individual in year t+4 was significant. The below-ground biomass of R. glacialis comprised about 70% of the total biomass, and there was a close correlation between the above- and the below-ground biomass of an individual. The individuals flowered abundantly each year and produced a great number of small-sized achenes.     

Effect of Fe 3+, Zn 2+ and Mn 2+ on ferric reducing capacity and regreening process of the peach rootstock Nemaguard (Prunus persica (L.) Batsch)

The peach rootstock Nemaguard is susceptible to lime-induced iron deficiency chlorosis. Under field conditions, application of ferric chelates to the soil is effective in correcting the Fe-deficiency symptoms. The objectives of this work were to study the induction of the root ferric reducing capacity and the relationship between chlorosis and leaf Fe concentration of plants grown hydroponically under different treatments. Results showed that bicarbonate-treated plants grown with a low Fe concentration increased their reducing capacity if they received additional Fe or Zn for a short period (15 h). However, the addition of Mn had no effect. When these Mn-treated plants were changed to nutrient solution with no bicarbonate and sufficient Fe, regreening was retarded several days in relation to the other treatments. In plants grown without bicarbonate, the reducing capacity was higher in plants grown with a low amount of Fe than in plants grown with either 0 Fe or sufficient Fe. In plants grown with bicarbonate and low Fe, the leaves became chlorotic and had low Fe concentration. When these plants received higher Fe supply, the regreening of the old leaves was not complete, though they had even higher Fe concentrations that the new developing leaves which were completely green. Results are discussed in relation to the Fe or Zn requirements of plants to induce reducing capacity and the incapacity of the cells from chlorotic leaves to absorb Fe and repair metabolic and structural damages.     

Morphological responses of a submerged macrophyte to epiphyton

Epiphyton might have distinctive influence on the morphology of substrate macrophyte. In this article, we evaluate the influence of epiphyton on the morphological characteristics of their substrate submerged macrophyte, Potamogeton perfoliatus under two light intensities. The experiment was carried out for a period of 84 days in 12 glass aquaria under laboratory conditions. It was based on a 2 × 2 factorial design with epiphyton status (present or absent) and light intensity (200 or 80 μE m⁻² s⁻¹). Both epiphyton and light intensity had significant effects on the morphology and biomass allocation of the experimental plants. The average number of leaves, total length of newly recruited shoots and diameter of stems were greater in the epiphyton-free control plants than in the epiphyton-colonized plants under low light conditions. The plants with epiphyton allocated more biomass in their rhizomes and roots (% relative to total biomass basis) when compared to the control plants in both light intensities. There were also significant epiphyton–light interactions. The control plants under low light intensity showed higher internodal elongation in their main shoots when compared to the plants under high light intensity as an adaptation mechanism. Whereas the plants with epiphyton did not show such an adaptation. The new shoots of the control plants under low light intensity did not show any internodal elongation as observed in the main shoots. Furthermore, the length of the leaves of main shoots was larger in control plants with epiphyton and high light intensity than in plants with epiphyton and low light intensity, but such a variation was absent in the new shoots. We conclude that the long-term colonization by epiphyton and their shading effects induced the observed morphological changes in plants.     

Net Carbon Emissions from Deforestation in Bolivia during 1990-2000 and 2000-2010: Results from a Carbon Bookkeeping Model

Accurate estimates of global carbon emissions are critical for understanding global warming. This paper estimates net carbon emissions from land use change in Bolivia during the periods 1990–2000 and 2000–2010 using a model that takes into account deforestation, forest degradation, forest regrowth, gradual carbon decomposition and accumulation, as well as heterogeneity in both above ground and below ground carbon contents at the 10 by 10 km grid level. The approach permits detailed maps of net emissions by region and type of land cover. We estimate that net CO₂ emissions from land use change in Bolivia increased from about 65 million tons per year during 1990–2000 to about 93 million tons per year during 2000–2010, while CO₂ emissions per capita and per unit of GDP have remained fairly stable over the sample period. If we allow for estimated biomass increases in mature forests, net CO₂ emissions drop to close to zero. Finally, we find these results are robust to alternative methods of calculating emissions.     

遮荫和全光下生长的棉花光合作用和叶绿素荧光特征

 遮荫条件下（遮荫下光强相当于自然光强的40％左右）棉花(Gossypium hirsutum)叶片光合速率明显降低,仅为自然光强下生长叶片的30%～40％,叶片中RuBP羧化酶活性降低,而表观量子效率(AQY)较高。不同光照条件下生长的棉花叶片对短时间持续光强的光合诱导过程有明显的差异,由弱光转到强光下,自然光强下生长的叶片的Pn、Gs、ΦPSⅡ及非光化学猝灭系数(NPQ)都能在较短的时间内达到最大值,而遮荫叶片需要的时间较长;遮荫下生长的棉花叶片的实际光化学效率,随光强的增加下降幅度较大,而自然光照下生长的叶片下降幅度较小;自然光照下生长的叶片的NPQ随光强的升高达到较高水平,而遮荫叶片在较低的光强下即达到最大值,此时NPQ较低,遮荫叶片依赖于叶黄素循环的能量耗散水平较低。遮荫叶片较低的光合速率以及过剩光能耗散能力是其转入自然强光后光抑制严重的主要原因。     

长期低浓度SO2对大豆生长和产量的影响

随着化石燃料消耗量不断增加,由此产生的主要大气污染物之一SO_2的浓度和影响范围也日趋增大。SO_2对植物,特别是对农作物的影响已受到普遍重视。本研究选择我国北方种植面积大、分布广的大豆为供试作物,在野外开顶式熏气装置中进行低浓度SO_2长期暴露试验,观察SO_2对大豆生长发育及产量的影响,以期为制订农田大气环境质量标准提供有一定参考价值的生态学基准。     

Adaptations to foliar absorption of faeces: a pathway in plant carnivory

BACKGROUND AND AIMS: Roridula plants capture insects but have no digestive enzymes. It has been hypothesized that Roridula leaves absorb nitrogen from the faeces of obligately associated, carnivorous hemipterans. But rapid movement across the leaf surfaces of most plant leaves is prevented by the presence of an impermeable cuticle. However, in carnivorous plants, cuticular gaps or pores in digestive/absorptive cells allow rapid movement across the leaf surface. Recently, it was suggested that the hemipteran-plant interaction constituted a new pathway for plant carnivory. Here, a further adaptation to this pathway is described by demonstrating how Roridula plants probably absorb hemipteran faeces rapidly through their leaf cuticles. METHODS: The dye neutral red was used to document the rapidity of foliar absorption and TEM to determine the nature of cuticular discontinuities in the leaf of Roridula. KEY RESULTS: Aqueous compounds diffuse rapidly across the cuticle of Roridula's leaves but not across the cuticles of co-occurring, non-carnivorous plant leaves. Furthermore, immature Roridula leaves were unable to absorb neutral red whereas mature leaves could. Using TEM, cuticular gaps and pores similar to those in other carnivorous plants were found in the epidermal cells of mature Roridula leaves. CONCLUSIONS: The leaf cuticle of Roridula is very thin (0-120 nm) and cell wall elements project close to the leaf surface, possibly enhancing foliar absorption. In addition to these, cuticular gaps were frequently seen and probably perform a function similar to those found in other carnivorous plants: namely the absorption of aqueous compounds. The cuticular gaps of Roridula are probably an adaptation to plant carnivory, supporting the newly described pathway.