dw2, a new mutation of beet Beta vulgaris L

Twelve dwarf plants were found in the second hybrid generation of beet. The average height of mutant plants was 21.8 cm, their leaf blades and flowers were significantly smaller than normal, and the plants exhibited male and female sterility. This dwarfism was shown to be caused by a mutation differing from that previously described in beet, which is named dwarf2 (dw2). The experimental evidence suggests that this mutation appeared in one of the first-generation plants. Based on plant phenotype in the first hybrid generation and the number of mutant plants in the second one, this mutation is suggested to be under recessive monogenic control of the dw2 gene. The genotypic class segregation in the second hybrid generation indicates that the dw2 gene is inherited independently of genes m, at, and ap that control choricarpousness, gene male sterility, and pollen grain aggregation into tetrads.     

Competitive Interactions among First‐Year and Second‐Year Plants of the Invasive,Biennial Garlic Mustard (Alliaria petiolata) and Native Ground Layer Vegetation

We studied the effects of hand weeding of second‐year plants of the biennial garlic mustard (Alliaria petiolata) on first‐year plants (seedlings) and native ground layer vegetation. Garlic mustard is a Eurasian species that has invaded deciduous forest ground layers in eastern North America. Treatments consisted of a control and an early or late weeding of second‐year garlic mustard. The early treatment (early March) was applied before garlic mustard seeds had germinated and when most native species were dormant. The late treatment (mid‐May) occurred after plants had bolted, flowering was occurring, and most native species and new garlic mustard seedlings were actively growing. Pre‐treatment data were obtained in 2004 and treated and control plots were sampled in 2005, 2006, and 2007. No significant treatment effects were observed in 2004 or 2005. In 2006, mean cover of first‐year plants was higher in the early weeding treatment than in the late weeding treatment and control. In 2007, mean cover of first‐year garlic mustard was higher in the control than in either of the two weeding treatments. There were no significant treatment effects in any year on native vegetation cover, bare ground, or the five most abundant native species. Our data indicate that (1) late weeding of garlic mustard provided more effective control than early weeding because late weeding allows second‐year plants to compete with garlic mustard seedlings for a longer period of time and (2) competition between first‐ and second‐year plants is responsible for alternating dominance of first‐year and second‐year garlic mustard plants.     

Plant–plant–plant communications,mediated by (E)-β-ocimene emitted from transgenic tobacco plants,prime indirect defense responses of lima beans

Some volatile organic chemicals (VOCs), such as terpenes, are responsible for communication between plants. We assessed the priming of defense responses in lima bean by exposing the plants to transgenic-plant-volatiles [(E)-β-ocimene] emitted from transgenic tobacco plants (NtOS2). As it was previously shown that the first receiver lima bean plants, which were infested with spider mites after having been exposed to (E)-β-ocimene from NtOS2, were highly induced to emit VOCs, we analyzed the VOCs emitted from a second set of receiver plants (second receiver plants) exposed to the infested, first receiver plants. In response to feeding by spider mites, two homoterpenes [(E)-4,8-dimethyl-1,3,7-nonatriene and (E,E)-4,8,12-trimethyltrideca-1,3,7,11-tetraene] were more highly emitted from the second receiver plants in response to spider mite attack, in comparison to the levels emitted from plants that had been placed near infested, wild-type (WT)-volatile-exposed plants. These data suggest that transgenic-plant-volatile-mediated, multiple-plant communication can function in plant defenses.     

The photosynthesis of ryegrass leaves grown in a simulated sward

Plants were taken from simulated swards of perennial ryegrass (Lolium perenne) grown in a controlled environment and the rates of photosynthesis of the youngest fully expanded leaves, and the second and third youngest leaves on the same tillers were measured. The youngest leaves had the highest rates and the third the lowest, with the second leaves intermediate. The rate of photosynthesis in bright light of successive youngest expanded leaves decreased as the swards increased in leaf area, but did not when plants were grown so that the main stem was not shaded. When plants were grown at different densities and the photosynthetic rates of leaves of a particular ontogenetic rank were measured, it was found that leaves on plants from higher densities had lower rates of photosynthesis. Also leaves on plants grown in bright light had higher photosynthetic rates than those on plants grown in dim light. It is concluded that the decline in the photosynthetic capacity of successive leaves in a rapidly growing simulated sward is due to the intense shading to which they are subjected during their expansion.     

<Emphasis Type="Italic">dw2</Emphasis>, a New Mutation of Beet <Emphasis Type="Italic">Beta vulgaris</Emphasis> L.

Twelve dwarf plants were found in the second hybrid generation of beet. The average height of mutant plants was 21.8 cm, their leaf blades and flowers were significantly smaller than normal, and the plants exhibited male and female sterility. This dwarfism was shown to be caused by a mutation differing from that previously described in beet, which is named dwarf2 (dw2). The experimental evidence suggests that this mutation appeared in one of the first-generation plants. Based on plant phenotype in the first hybrid generation and the number of mutant plants in the second one, this mutation is suggested to be under recessive monogenic control of the dw2 gene. The genotypic class segregation in the second hybrid generation indicates that the dw2 gene is inherited independently of genes m, a1, and ap that control choricarpousness, gene male sterility, and pollen grain aggregation into tetrads.__________Translated from Genetika, Vol. 41, No. 5, 2005, pp. 657–660.Original Russian Text Copyright © 2005 by Mglinets, Osipova.     

Nitrogen status of cotton subjected to two short term periods of waterlogging of varying severity using a sloping plot water-table facility

Summary Cotton is reported to be susceptible to waterlogging, and there is evidence that some of the symptoms shown by waterlogged plants are due to impaired uptake of nitrogen. To investigate this for cotton, the nitrogen nutrition of a field-grown crop was monitored when the plants were subjected to two short term periods of waterlogging of varying severity using a sloping plot water-table facility. Growth of severely waterlogged cotton decreased after 4 days in the first and second floodings, and these plants were wilted by the end of the first flooding but not the second. Waterlogging resulted in decreased concentrations of total-N and especially NO ₃ ^– –N in the petiole and lamina of the youngest fully-expanded leaf. Uptake of N by waterlogged plants occurred, but was not as great as for well-aerated plants. The nitrate reductase activity of leaves was much lower in waterlogged plants. Stumps of detopped waterlogged plants did not exude sylem sap at the end of the first flooding, suggesting impaired solute uptake due to damaged roots. However, xylem exudate was obtained from stumps of waterlogged plants at the end of the second flooding, indicating adaptive changes to the root systems of these plants. Although cotton is reported to reduce little NO ₃ ^– –N in its roots, analysis of xylem exudate showed that about half of the N exported by roots was as amino compounds. The concentration of amino compounds in xylem exudate from severely waterlogged plants was higher than in well-aerated plants. It was concluded that the growth reduction in waterlogged cotton was due partly to induced N-deficiency.     

An experimental test of the evolution of increased competitive ability hypothesis in goldenrod, <Emphasis Type="Italic">Solidago gigantea</Emphasis>

The mechanisms that allow introduced plants to become invasive are poorly understood. Here, we present a test of the evolution of increased competitive ability hypothesis, which holds that because specialized natural enemies may be absent from the introduced range, exotic plants may evolve to invest less in anti-herbivore defenses and thereby gain a competitive advantage over native plants. We grew Solidago gigantea plants derived from both the native range (North America) and the invasive range (Europe) in a common garden in the native range for 2 years. Half the plants were treated with insecticide to protect them from insect herbivores and the other half were exposed to insects that colonized the garden from nearby fields. Insect herbivore biomass was significantly higher on European plants than US plants in the first year but not the second. European plants were more heavily attacked by pathogens in both years of the study. When exposed to insect herbivores, US plants produced more seed than European plants, but when plants were protected from herbivores, seed production was equivalent between US plants and European plants. The presence of insect herbivores suppressed seed production of European plants much more than that of US plants, even though the level of herbivory experienced by European and US plants was similar in the second year, suggesting that the ability to tolerate herbivory was diminished in European plants. These results partially support the EICA hypothesis: plants from the introduced range were more susceptible to some natural enemies and benefited more from insect removal than plants from the native range. The prediction that European plants would perform better than US plants in the absence of insect herbivores was not supported. Electronic Supplementary Material Supplementary material is available for this article at     

Integrated versus stand-alone second generation ethanol production from sugarcane bagasse and trash

Ethanol production from lignocellulosic materials is often conceived considering independent, stand-alone production plants; in the Brazilian scenario, where part of the potential feedstock (sugarcane bagasse) for second generation ethanol production is already available at conventional first generation production plants, an integrated first and second generation production process seems to be the most obvious option. In this study stand-alone second generation ethanol production from surplus sugarcane bagasse and trash is compared with conventional first generation ethanol production from sugarcane and with integrated first and second generation; simulations were developed to represent the different technological scenarios, which provided data for economic and environmental analysis. Results show that the integrated first and second generation ethanol production process from sugarcane leads to better economic results when compared with the stand-alone plant, especially when advanced hydrolysis technologies and pentoses fermentation are included.     

Genetic modification of the waxy character in barley after an injection of wild-type exogenous DNA. Analysis of the second seed generation

Preparations of the DNA extracted from the endospermal milk and leaves of normal distichous barley plants were injected into the grains of hexastichous barley at a milk-ripeness stage and carrying waxy mutation (i.e. having defective synthesis of amylose). Restoration of normal starch synthesis in plant cells was considered as an indication of the changes produced by the exogenous DNA. In normal barley, starch contains amylose and amylopectin and is stained blue-to-black in an iodine solution, whereas in the waxy mutant, starch has no amylose and is stained red-to-brown. To exclude any relationship of dominance the analysis was carried out at a haploid level, that is on the pollen harvested from the injected plants. This approach had the additional advantage of allowing us to work with individual cells instead of whole plants or their organs. Upon injection of the preparations of wild-type DNA a certain fraction of plants showed changes toward wild type. The seeds obtained from the altered plants were sown and the progeny examined. It was established that in the second generation most plants returned to the recepient type. A detailed analysis of the progeny of plant No. 506/19, in the first generation of which almost all pollen (over 99.5%) was of wild type, showed that in these plants the alterations were considerably more stable, only one fifth or one sixth of plants returning to the original recipient type. In half of the progeny of plant No. 506/19 the starch was of the donor type, and in 30% of the plants, as in the first generations, the bulk of the polen (99.98%) was stained black by iodine. In the second generation, segregation of plants for starch staining differed from the Mendelian one, which is probably indicative of non-chromosomal localization of the genetic determinants brought along with the injected DNA. Concurrent with the alterations of the starch structure, alterations of the type of spike (hexastichous barley plants modified distichous ones) were observed in those plants whose pollen became predominantly or wholly normal. Also, delayed manifestation of the synthesis of normal starch was noted. Certain plants which did not show any changes in the first generation yielded wild-type pollen grains in the second generation.     

Physiological changes in them in post-stress emerging <Emphasis Type="Italic">Ctenanthe setosa</Emphasis> plants under drought conditions

The capability of Ctenanthe setosa (Rosc.) Eichler (Marantaceae), pre-exposed to severe drought stress, of adaptation to a new drought conditions was investigated. C. setosa unstressed plants were exposed to drought period of 70 days. These plants were named as primary-stress plants (PS). They were trimmed, and new plants were produced from their rhizomes. New growing plants were named as post-stress emerging (PSE) plants. It was observed that leaf area and petiole length of PSE plants were reduced, as compared to unstressed plants. When PSE plants were exposed to a second drought-stress cycle, it was determined that the degree of their leaf rolling was higher but their relative water content (RWC) was less than these parameters of PS plants during drought period. However, at the 81% rolling degree, RWC in PSE plants was higher than in PS plants. Consequently, it can be said that the PSE plant were more resistant to a new drought stress than unstressed and PS plants. In the leaves of PSE plants, which were exposed to a second drought-stress period, the content of soluble protein decreased in the early period of drought, but increased in the later periods. Also, the content of reducing sugar in PSE plants gradually decreased during the stress period. Proline content increased markedly during drought period, whereas peroxidase activity increased up to the 60th day and then decreased. This text was submitted by the authors in English.     

Polyamine concentrations and arginine decarboxylase activity in wheat exposed to osmotic stress

The activity of L-arginine decarboxylase (ADC: EC 4.1.1.19)and polyamine content were examine in intact wheat plants ( Triticum aestivum L. cv. Sappo) exposed to osmotic stress (0.4 M mannitol) for 5 days. ADC activity was increased in first and second leaves and in roots of mannitol-stressed plants. Concentrations of putrescine, cadaverine and spermine were generally increased in leaves and roots of plants exposed to mannitol, whereas spermidine was reduced in first leaves and roots of these plants. In an attempt to determine the localization of mannitol in stressed wheat. ¹⁴C-mannitol was fed to plants grown in liquid culture. Most of the mannitol was detected in roots (84%), while small amounts were found in first (9%) and second (7%) leves.
Since it seemed possible that some of the effects on polyamine metabolism caused by exposure to mannitol could have been the result of water stress. polyamine metabolism was also studied in plants water stressed by exposure to 2% polyethylene glycol (PEG) 4000. ADC activity was not altered by exposure to PEG. but concentrations of putrescine, spermidine and spermine were generally reduced in leaves and roots of stressed plants. Cadaverine concentrations were not significantly affected by exposure to PEG. Spermidine and spermine concentrations were reduced in first and second leaves but remained unchanged in roots of plants exposed to PEG.     

Molecular analysis of apomixis in cassava

Cassava is the main staple for more than 800 million people in the tropics. It is propagated vegetatively by stem cuttings, which maintains superior genotypes but favors disease accumulation and spread. In this report, we present the results of the screening of the progeny and the second generation of the clone UnB 307 for apomixes using microsatellites. A total of 29 plants were screened, representing the maternal plant, its first and second generations that were left to open pollination. About 20% of the offspring were rated as genetically identical plants. This result confirms the facultative apomictic nature of cassava, with high environmental effect.     

菊苣体细胞再生植株的遗传稳定性分析

目的:研究菊苣再生植株的遗传稳定性.方法:以菊苣叶片为外植体,经第一代和第二代体细胞再生获得再生植株,分别对再生植株提取DNA,从12个引物中筛选了2个多态性好的引物,对第一代和第二代体细胞再生植株进行RAPD标记.结果:菊苣第一代体细胞无性系没有发生DNA多态性变异,第二代体细胞无性系在分子水平发生了1条DNA多态性变异.结论:RAPD分子标记方法可以鉴定菊苣组织培养过程中的遗传稳定性和遗传变异,为菊苣快繁和遗传转化奠定了基础.     

Not only light quality but also mechanical stimuli are involved in height convergence in crowded Chenopodium album stands

? In crowded stands, height is often similar among dominant plants, as plants adjust their height to that of their neighbours (height convergence). We investigated which of the factors, light quality, light quantity and mechanical stimuli, is primarily responsible for stem elongation and height convergence in crowded stands. ? We established stands of potted Chenopodium album plants. In one stand, target plants were surrounded by artificial plants that were painted black to ensure that the light quality was not modified by their neighbours. In a second stand, target plants were surrounded by real plants. In both stands, one-half of the target plants were anchored to stakes to prevent flexing by wind. The target plants were lifted or lowered by 10?cm to test whether height convergence was affected by the different treatments. ? Stem length was affected by being surrounded by artificial plants, anchoring and pot elevation, indicating that light quality, light quantity and mechanical stimuli all influenced stem elongation. Height convergence did not occur in the stand with artificial plants or in anchored plants. ? We conclude that light quality and mechanical stimuli are important factors for the regulation of stem growth and height convergence in crowded stands.     

NO3- and ClO3- fluxes in the chl1-5 mutant of Arabidopsis thaliana. Does the CHL1-5 gene encode a low-affinity NO3- transporter?

The CHL1 gene is considered to encode a low-affinity transport system (LATS) for NO3- in Arabidopsis thaliana (Y.-F. Tsay, J.I. Schroeder, K.A. Feldmann, N.M. Crawford [1993] Cell 72: 705-713). However, the anticipated reduced NO3- uptake by the LATS associated with loss of CHL1 gene activity in chl1-5 deletion mutants was evident only when plants were grown on NH4NO3. When KNO3 was the sole N source, NO3- accumulation and short-term tracer influx (using 13NO3- and 15NO3-) in leaves and roots of wild-type and mutant plants were essentially identical. Nevertheless, root uptake of 36CIO3- by the LATS and CIO3- accumulation in roots and shoots of mutant plants were significantly lower than in wild-type plants when grown on KNO3. One explanation for these results is that a second LATS is able to compensate for the chl1-5 deficiency in KNO3-grown plants. Growth on NH4NO3 may down-regulate the second LATS enough that the anticipated difference in NO3- uptake becomes apparent.     

The effects of herbivory and resource variability on the production of a second inflorescence by the desert lily, Pancratium sickenbergeri

We investigated the effects of herbivory by the dorcas gazelle, Gazella dorcas, on the production of a second inflorescence in a desert lily, Pancratium sickenbergeri (Amaryllidaceae), after the first inflorescence was eaten. In three populations exposed to different levels of herbivory, we conducted an inflorescence-clipping experiment in the flowering seasons of 1997, 1998 and 1999. The experiment was performed on inflorescences at both the emerging stage and the anthesis stage. Plants in each control group were undamaged. Clipped plants had a greater probability of producing a second inflorescence stalk than unclipped plants. In all the populations, the probability of producing a second inflorescence was greater when the first inflorescence was cut in the emerging stage than when it was cut in anthesis, indicating that there was a cost of compensation. In the population with the highest level of herbivory, the production of a second inflorescence stalk was related to resource availability in all 3 years. Plants produced as many flowers or fruits on the second stalk as on the first, indicating that potential reproductive output is double that usually achieved. Although we found no evidence for a trade-off between investment in first and second inflorescence stalks, the lower probability of producing a second inflorescence if heavy investment had been made in the first inflorescence indicates that compensation is costly. These results contradict the mutualism hypothesis that herbivory is beneficial to plants and provide support for the trade-off hypothesis that benefits of herbivory are proximal and are attained at an evolutionary cost.     

城市绿地种子库的初步研究

对城市绿地土壤种子库的组成、种群数量、空间分布和物种多样性进行了初步研究,结果表明：城市绿地土壤种子库存中共出现植物42种,其中在第一层中共出现植物1 477株,多样性指数为2.05,均匀度是0.58,最大的物种多样性指数是3.56,第二层的物种多样性指数,均匀度和最大物种多样性指数均比第一层要低,分别为1.94、0.56和3.47,植物种类也要少一些。城市绿地土壤种子库中种的丰富度、种子苗量、多样性指数均不如远郊区山地天然次生林。城市绿地土壤种子库中蕴藏着一些潜在种群,有些植物种可以用于城市绿化建设。     

The Mobility of Manganese in the Wheat Plant: II. Redistribution in Relation to Concentration and Chemical State

Wheat plants were grown in solution culture at two levels ofmanganese supply until the second leaves were fully expanded.The supply of manganese was then curtailed and symptoms of deficiencyappeared in subsequent growth. Although redistribution of manganeseat rates dependent upon initial content occurred in both high-and low-manganese plants, first and second leaves always retainedsufficient for normal function, and remained healthy. In a secondexperiment no redistribution from the second leaves was observedunder similar conditions of supply and demand. When second leaves were killed and placed in water, up to 80per cent, of the manganese diffused out, but extraction of similarleaves with 80 per cent, methanol removed only 15—20 percent, of that present. These results suggest that the lack ofmobility shown by the element is not due to precipitation orcomplex formation within the tissue, although at high levelsof manganese supply the solubility of manganese silicate mightbe exceeded, and some precipitation may occur.     

Heritable effects of 5-azacytidine treatments on the growth and development of flax (Linum usitatissimum) genotrophs and genotypes.

Seed of flax (Linum usitatissimum) were treated for short durations with 5-azacytidine and the direct and heritable effects of the treatments on plant growth and development in general and, more specifically, on the contrasting phenotypes of Durrant's large and small genotrophs were examined. 5-Azacytidine induced a reduction in the height of the plants grown from treated seed. Twenty-two percent of the first generation progeny of these plants also had short phenotypes and, in most cases, the short phenotype was stably and uniformly inherited by the second generation progeny of the short, first generation plants. Treatment also induced a marked decrease in the flowering age in a few of the first generation plants that was also transmitted to their second generation progenies. The effects seen in the progeny generations suggest that most, if not all, of the heritable changes induced by the treatment are epigenetic. Several differences were seen between the large and small genotrophs, which indicate that the genome of the small genotroph is less susceptible, than the genome of the large genotroph, to 5-azacytidine induced heritable alterations.