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The transpiration of Tropaeolum plants, grown in water culture,on full nutrient solutions and on solutions deficient in oneof the following, i.e. boron, copper, manganese, and zinc, wasstudied. The transpiration rate of the control plants grownon the full nutrient solution was significantly higher thanthat of the deficient ones. The more acute the deficiency, thegreater was the disparity. Under the condition of the experiment, the control plants weresmaller in size, having fewer and smaller leaves than the deficientones, but the foliage was much greener and healthier in appearance. 相似文献
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NZE-EKEKANG L.; PATILLON M.; SCH?FER A.; KOVOOR A. 《Journal of experimental botany》1974,25(2):320-329
Jerusalem artichoke DNA, extracted from resting rhizomes, wasanalysed by the reassociation kinetics of sheared denaturedfragments. Various fractions were isolated according to theirreassociation rates. The slowest fractions consist of unrepeatedor single-copy DNA which makes up 55 per cent of the total DNA.The total sequence length of the haploid genome is estimatedas corresponding to 0.23?1012 daltons. Among the fractions ofrepeated DNA isolated, two were relatively homogeneous withan average complexity of 2?108 and 109 daltons respectively. 相似文献
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CHRISTOPH OBERPRIELER JÖRG MEISTER CHRISTINE SCHNEIDER NORBERT KILIAN 《Biological journal of the Linnean Society. Linnean Society of London》2009,97(1):40-51
Anogeissus dhofarica (Combretaceae) is an endemic tree of the monsoon affected coastal mountains of the southern Arabian Peninsula, being the character species of the Hybantho durae–Anogeissetum dhofaricae association, a drought deciduous, monsoon forest community found only in the Dhofar region of southern Oman and the eastern Al‐Mahra region of south‐east Yemen. Due to the steep precipitation gradient from the centre to the edges in this monsoon affected area, A. dhofarica is found in two different habitat types: in continuous woodland belts of the Hawf and Dhofar mountains, and in isolated, scattered woodland patches, as found especially in the Fartak Mts (south‐east Yemen). Fifteen populations (212 individuals) from across the whole distribution area of the species were analysed using amplified fragment length polymorphism fingerprinting to: (1) evaluate the consequences of population fragmentation on the genetic diversity harboured in isolated patches versus cohering stands of the species and (2) to reconstruct the phylogeographical pattern of A. dhofarica as a consequence of oscillations in the monsoon activity during the Pleistocene and Holocene. The analysis of among‐population genetic differentiation and within‐population genetic diversity in A. dhofarica populations resulted in a lack of genetic pauperization and genetic differentiation of populations of the distinctly isolated patches of the Fartak Mts compared to the more luxurious forests of the Hawf and Dhofar regions. This is considered to be due to the high buffer capacity against the loss of genetic diversity caused by the long‐lived life‐form of the species combined with the capability to propagate clonally and the relatively recent fragmentation of Anogeissus forests into the described patches rather than due to high values of gene flow among remnant populations caused by bee pollination and anemochorical and hydrochorical diaspore dispersal. The phylogeographical pattern of the species argues for a quite recent fragmentation of a once continuous forest belt of A. dhofarica that is rather connected with climate changes in the Holocene than triggered by aridity–humidity oscillations reported for the Pleistocene. © 2009 The Linnean Society of London, Biological Journal of the Linnean Society, 2009, 97 , 40–51. 相似文献
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MARION I. MENZEL SUSANNE TITTMANN JONAS BÜHLER STELLA PREIS NORBERT WOLTERS SIEGFRIED JAHNKE ACHIM WALTER ANTONIA CHLUBEK ARIEL LEON NORMEN HERMES REAS OFFENHÄUSER FRANK GILMER PETER BLÜMLER ULRICH SCHURR & HANS-JOACHIM KRAUSE 《Plant, cell & environment》2009,32(4):368-379
Non-invasive and rapid determination of plant biomass would be beneficial for a number of research aims. Here, we present a novel device to non-invasively determine plant water content as a proxy for plant biomass. It is based on changes of dielectric properties inside a microwave cavity resonator induced by inserted plant material. The water content of inserted shoots leads to a discrete shift in the centre frequency of the resonator. Calibration measurements with pure water showed good spatial homogeneity in the detection volume of the microwave resonators and clear correlations between water content and centre frequency shift. For cut tomato and tobacco shoots, linear correlations between fresh weight and centre frequency shift were established. These correlations were used to continuously monitor diel growth patterns of intact plants and to determine biomass increase over several days. Interferences from soil and root water were excluded by shielding pots with copper. The presented proof of principle shows that microwave resonators are promising tools to quantitatively detect the water content of plants and to determine plant biomass. As the method is non-invasive, integrative and fast, it provides the opportunity for detailed, dynamic analyses of plant growth, water status and phenotype. 相似文献
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Impact of insect defoliation on forest carbon balance as assessed with a canopy assimilation model 总被引:1,自引:0,他引:1
KARINA V. R. SCHÄFER KENNETH L. CLARK NICHOLAS SKOWRONSKI ERIK P. HAMERLYNCK 《Global Change Biology》2010,16(2):546-560
Disturbances such as fire, hurricanes, and herbivory often result in the net release of CO2 from forests to the atmosphere, but the magnitude of carbon (C) loss is poorly quantified and difficult to predict. Here, we investigate the carbon balance of an oak/pine forest in the New Jersey Pine Barrens using the Canopy Conductance Constrained Carbon Assimilation (4C‐A) model. The 4C‐A model utilizes whole‐tree sap‐flux and leaf‐level photosynthetic gas exchange measurements at distinct canopy levels to estimate canopy assimilation. After model parameterization, sensitivity analyses, and evaluation against eddy flux measurements made in 2006, the model was used to predict C assimilation for an undisturbed year in 2005, and in 2007 when the stand was completely defoliated for 2–3 weeks during an infestation of gypsy moths (Lymantria dispar L.). Following defoliation, only 50% of the foliage reemerged in a second flush. In 2007, canopy net assimilation (AnC), as modeled with the 4C‐A, was reduced to approximately 75% of AnC in 2006 (940 vs. 1240 g C m?2 a?1). Overall, net primary production (NPP) in 2007 was approximately 240 g C m?2 a?1 (vs. 250 g C m?2 a?1 in 2006), with 60% of NPP allocated to foliage production, a short‐term carbon pool. Woody biomass accumulation, a long‐term carbon pool, was reduced by 20% compared with the previous year (72 vs. 57 g C m?2 a?1 in 2006 and 2007, respectively). The overall impact of the defoliation spanned 21% of upland forests (320 km2) in the New Jersey Pine Barrens, representing a significant amount of overall C not being taken up from the atmosphere by the forest, thus not accumulated in the biosphere. 相似文献
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ABSTRACT The acoustic characteristics of an Amazonian lowland rain forest study site in southern Venezuela was analysed to determine environmental constraints upon acoustic communication. Signal degradation was measured by conducting transmission experiments at different heights above ground level. Measurements of ambient noise served to determine possible communication distances for various times of day, heights above ground level and frequencies. “Sound windows” for acoustic long-range communication were found for low frequencies, calling heights in the midstorey and calling in the morning or during the night. Sound attenuation was affected by height and frequency but not by time of day. Background noise varied remarkably with time of day and frequency and had a greater impact on communication distance than signal attenuation. 相似文献