Factors Affecting Disease Development by Rhynchosporium alismatis in Starfruit (Damasonium minus), a Weed of Rice

The fungal pathogen Rhynchosporium alismatis is being developed for biological control of starfruit (Damasonium minus), an important aquatic weed in Australian rice fields. The development of R. alismatis in starfruit differs between juvenile and adult plants. Juvenile starfruit plants are stunted as a result of fungal infection, while in adult plants, the main effect is necrosis and chlorosis of floating leaves. A conidial concentration of 1×10⁴ conidia mL^-1 was adequate to cause disease symptoms on floating leaves, but the stunting effect on juveniles was caused by concentrations of at least 1×10⁵ conidia mL^-1. To successfully inoculate juvenile plants, the water must be drained before inoculation to expose plants to the inoculum. The artificial addition of dew periods did not enhance disease development in plants. The stunting of juvenile starfruit plants caused by the infection of R. alismatis may give rice plants a competitive advantage over the weed at the seedling stage     

Seasonal activity,habitat preferences and larval mortality of the leaf-mining fly Calycomyza eupatorivora (Agromyzidae), a biological control agent established on Chromolaena odorata (Asteraceae) in South Africa

The leaf-mining fly Calycomyza eupatorivora Spencer (Diptera: Agromyzidae) has become widely established in the eastern regions of South Africa, following its release for the biological control of the invasive shrub Chromolaena odorata (L.) King and Robinson. This study was conducted to gain some insight into the impact of C. eupatorivora populations, by assessing their seasonal activity, habitat preferences, levels of leaf exploitation and extent of larval mortality in the field over a 1-year period. Leaf mining intensity was poorly synchronised with leaf availability, with leaf exploitation peaking at the end of the growing season of C. odorata. Although significantly more mines were recovered on plants growing in shaded situations, the percentage of available leaves that were exploited for mining was not significantly different between plants growing in shaded versus open situations. Overall, the levels of leaf damage were trivial with mines recovered from <5% of available leaves that were sampled during the study. Besides leaf-quality requirements, these low levels of leaf exploitation may have been influenced by high larval mortality which varied between 60 and 83%, depending on whether lower or higher estimates were used. These evaluations have verified the results of earlier laboratory studies which suggested that the impact of C. eupatorivora on mature populations of C. odorata in South Africa will be negligible.     

The interaction between Plectosporium alismatis and sublethal doses of bensulfuron-methyl reduces the growth of starfruit (Damasonium minus) in rice

Plectosporium alismatis is a fungal pathogen that is being investigated as a biocontrol agent for suppressing starfruit (Damasonium minus), a significant weed of Australian rice fields. The aim of this research was to study the effect of the fungus on weed competition and its interactions with chemical herbicides. Conidial germination was significantly reduced by Londax® (bensulfuron-methyl), while MCPA had no effects. Glasshouse trials showed evidence of synergism between the fungus and 1.56% of the recommended dose of Londax®, in reducing the weed growth. The application of inoculum (conidia suspended in water) in the glasshouse eliminated weed competition with rice. In the field, the reduction in weed growth caused by the fungus did not significantly eliminate starfruit competition with rice. This is thought to be due to the presence of other weeds.     

Effects of root pruning on the growth and water use efficiency of winter wheat

A pot experiment was conducted to study the effects of root pruning at the stem elongation stage on the growth and water use efficiency (WUE) of winter wheat (Triticum aestivum). The results showed that stomatal conductance (g) and transpiration (E) of wheat were very sensitive to root pruning. After root pruning, they declined rapidly and but returned to pre-pruning values 15 days after treatment. Under well-watered conditions, there was no significant difference in leaf water potential (ψ_leaf) between root pruned and control plants after root pruning. Under moderate drought stress, ψ_leaf of root pruned plants declined significantly compared to the control 3 days after root pruning. After 15 days, ψ_leaf of root pruned plants was similar to the controls. Under different soil moisture levels, net assimilation rate (A) of root pruned plants was lower than controls 3–7 days after root pruning, but was similar to the controls 15 days after pruning. At anthesis (50 days after root pruning), root pruned plants showed significantly higher A compared with the control. Leaf area per tiller and tiller number of root pruning plants was significant lower than the control at booting stage, which showed that root pruning restrained the growth of plants in the early growing stage, but leaf area per stem, of root pruned plants, was similar to the control at anthesis. Under both soil moisture levels, there was no significant difference in grain yield between root pruned and the control plants in the monoculture. In mixture with the control plants, the root pruned plants was less productive and had a lower relative yield (0.92 and 0.78, respectively) compared with the control (1.13 and 1.19, respectively), which suggested that the pruned plants lost some of its competing ability and showed a lower ability to acquire and use the same resources in the mixture compared with the control plant. Over the whole growing cycle, root pruning reduced water consumption (by 10% under well-watered conditions and 16% under moderate drought stress) of wheat significantly compared to the control (P < 0.05), and but there was no significant difference in grain yield between root pruned and control plants. Therefore root pruned wheat had a higher WUE with respect to grain yield compared with the controls. In conclusion, lowering water consumption by root pruning in the early growing stage is an effective way to improve water use efficiency in arid and semi arid areas.     

巨尾桉叶片挥发物对三种植物种子萌发及幼苗生长的化感效应

为探讨人工巨尾桉林叶片挥发物对周边农作物的化感作用,采用不同质量新鲜巨尾桉叶片及由新鲜叶片提取的桉叶油对玉米、辣椒、西红柿等三种植物种子进行处理,观测其种子萌发和幼苗生长状况。结果表明:(1)在三种被测植物中,桉树叶片挥发物对玉米种子萌发影响最小,对辣椒影响最大;(2)当叶片用量小于200g时,桉树叶片挥发物对三种植物种子萌发影响不明显,当叶片用量达400g时,能完全抑制辣椒、西红柿种子萌发,并能极显著降低玉米种子萌发(P0.01);(3)玉米幼苗芽生长随叶片用量的增加呈现先促进后抑制现象,对芽高、鲜重、干重的促进和抑制均达到显著(P0.05)或极显著水平(P0.01);(4)当叶片用量小于或等于100g时,桉树叶片挥发物对辣椒、西红柿幼苗生长影响不明显,当用量达到200g时则能极显著抑制辣椒、西红柿幼苗生长;(5)桉叶油对三种测试植物的抑制效果与叶片自然挥发物相似,且效果更显著。     

Effect of controlled inoculation with specific mycorrhizal fungi from the urban environment on growth and physiology of containerized shade tree species growing under different water regimes

The aim of this work was to evaluate the effects of selected mycorrhiza obtained in the urban environment on growth, leaf gas exchange, and drought tolerance of containerized plants growing in the nursery. Two-year-old uniform Acer campestre L., Tilia cordata Mill., and Quercus robur L. were inoculated with a mixture of infected roots and mycelium of selected arbuscular (maple, linden) and/or ectomycorrhiza (linden, oak) fungi and grown in well-watered or water shortage conditions. Plant biomass and leaf area were measured 1 and 2 years after inoculation. Leaf gas exchange, chlorophyll fluorescence, and water relations were measured during the first and second growing seasons after inoculation. Our data suggest that the mycelium-based inoculum used in this experiment was able to colonize the roots of the tree species growing in the nursery. Plant biomass was affected by water shortage, but not by inoculation. Leaf area was affected by water regime and, in oak and linden, by inoculation. Leaf gas exchange was affected by inoculation and water stress. V _cmax and J _max were increased by inoculation and decreased by water shortage in all species. F _v/F _m was also generally higher in inoculated plants than in control. Changes in PSII photochemistry and photosynthesis may be related to the capacity of inoculated plants to maintain less negative leaf water potential under drought conditions. The overall data suggest that inoculated plants were better able to maintain physiological activity during water stress in comparison to non-inoculated plants.     

滇中喀斯特41种不同生长型植物叶性状研究

该研究以云南石林喀斯特地区41种主要植物(乔木19种、灌木10种、藤本4种、草本8种)为对象,对其叶面积(AR)、叶鲜重(FW)、叶干重(DW)、叶厚度(TH)、叶绿素含量(Chlc)等进行了测定,得到不同植物比叶面积(SLA)、叶干物质含量(DMC)等指标。结果表明:(1)在物种水平上7项植物叶性状值变化范围较大,不同生长型植物差异显著。(2) 41种植物的SLA与DMC之间呈极显著负相关(P0.01),AR与FW、DW呈极显著正相关(P0.01),TH与Chlc呈极显著正相关(P0.01),其他因子间相关性不显著。(3)该研究区植物叶性状变异范围为15.82%～139.14%,多为高变异系数(84.40%～131.01%),叶性状变异中AR与FW贡献率较高,分别为84.40%、90.28%,不同生长型植物在TH上稳定性较好。(4)石林喀斯特地区植物叶片适应特殊生境时表现出较低的TH、SLA、Chlc和较高的DMC等特征。这说明石林喀斯特地区植物通过形成不同的叶性状特征来适应特殊生境,可为喀斯特地区的植被保护与恢复提供理论指导。     

神木天坑不同小生境木本植物叶功能性状的差异与关联

为进一步探讨天坑生境下木本植物的生存策略，该研究以神木天坑不同小生境(底部、坑腰和边缘)的木本植物为对象，选取叶厚度、叶组织密度、叶面积等10个叶功能性状指标，运用单因素方差分析和相关性分析等方法，分析了天坑木本植物叶功能性状的变异特征以及小生境对木本植物叶功能性状的影响。结果表明：(1)在神木天坑木本植物10个叶功能性状中，叶面积变异系数最大(113.9%),叶碳含量变异系数最小(10.5%)。(2)天坑边缘、坑腰的乔木叶组织密度显著高于底部(P<0.05),天坑底部乔木、灌木的叶钾含量显著高于边缘(P<0.05),3种小生境中木质藤本未出现显著差异(P>0.05)。(3)不同小生境叶功能性状相关性存在一定差异，从天坑底部到边缘小生境，叶厚度与叶面积逐渐呈极显著正相关；主成分分析结果显示叶组织密度(-0.833)、叶钾含量(0.782)、叶干物质含量(-0.647)贡献较大，是神木天坑不同小生境木本植物叶功能性状的主要指标。综上认为，叶功能性状之间普遍关联，天坑木本植物通过对叶功能性状的权衡来适应不同小生境。该研究结果为了解植物对特殊生境的适应机制以及天坑植被的保护...     

Is oviposition and larval damage by the leaf-mining fly Calycomyza eupatorivora (Agromyzidae) on its target weed,Chromolaena odorata (Asteraceae), restricted by leaf-quality preferences?

The leaf-mining fly Calycomyza eupatorivora Spencer (Diptera: Agromyzidae) was released in the eastern coastal regions of South Africa for the biological control of the invasive shrub Chromolaena odorata (L.) King and Robinson. Despite widespread establishment, its ability to inflict sufficient foliar damage has been questioned. This laboratory study was initiated to provide some insight into how increasing fly populations (represented by 1, 5 and 10 mating pairs per plant) are likely to influence leaf-mining intensity and the levels of damage. On average, individual plants exposed to five mating pairs displayed significantly more larval mines (248) than those exposed to single pairs (69), while plants exposed to 10 mating pairs were intermediate (125). Similarly, at densities of five mating pairs per plant, the percentages of available leaves that were exploited peaked at 36%, while the percentages of available leaf area that were removed by larval leaf mining peaked at 22%. The non-linear relationship between leaf mining and fly density and the high percentages of unexploited leaves suggest that leaf mining may be influenced by leaf quality, the nature of which is currently unconfirmed. These results also suggest that the levels of leaf exploitation by C. eupatorivora will be too low to have any meaningful impact in the field. Field evaluations, to be reported in a later contribution, have indeed confirmed that the impact of C. eupatorivora on mature populations of C. odorata is negligible.     

Effects of water-level fluctuation and invasive water plants on pheasant-tailed jacana (Hydrophasianus chirugus) at the Annaiwilundawa Ramsar site of northwestern Sri Lanka

The effects of alien invasive water plants (Eichhornia crassipes, Salvinia molesta, Imperata cylindrical and Mikania micrantha) on the pheasant-tailed jacana (Hydrophasianus chirugus) was studied in three reservoirs from June 2004 to May 2005 at the Annaiwilundawa Ramsar site of northwestern Sri Lanka. Jacanas were observed in significantly fewer numbers among invasive plants and open water and in significantly higher numbers among grass and floating leaved plants than predicted from the proportions of the reservoirs covered by these habitat types (Annaiwilundawa χ² = 64.35, P < 0.0001; Suruwila χ² = 45.66, P < 0.0001; Maiyawa χ² = 33.35, P < 0.0001). Feeding was the major activity of the pheasant-tailed jacana during the study period [analysis of variance (ANOVA) F = 79.58, P < 0.0001 in the morning and F = 85.53, P < 0.0001 in the evening]. Jacanas preferred to forage in grass and floating leaved vegetation compared to invasive plants and open water (ANOVA F = 168.63, P < 0.001). The jacana population was significantly positively correlated with water level in all three reservoirs. (Spearman’s rank correlation, Annaiwilundawa z = 2.035, P < 0.05; Suruwila z = 2.19, P < 0.05; Maiyawa z = 2.563, P < 0.05). The findings of this study revealed that the most critical factor for the occupation of the reservoirs by jacanas was the water level and that the spread of the invasive plants in these reservoirs were detrimental to jacanas, since these plants deprived jacanas of useful foraging habitats.     

Leaf scarring by the weevils Neochetina eichhorniae and N. bruchi enhances infection by the fungus Cercospora piaropi on waterhyacinth, Eichhornia crassipes

Additive or synergistic effects among introduced and native insect and plant pathogen agents are necessary to achieve biological control of waterhyacinth (Eichhornia crassipes), a globally damaging aquatic weed. In field plots, plants were infested with waterhyacinth weevils (Neoechetina bruchi and N. eichhorniae) and leaves were scarred by weevil feeding. Subsequent infection by the fungal pathogen Cercospora piaropi caused necrotic lesions to form on leaves. Necrosis development was 7.5- and 10.5-fold greater in plots augmented with both weevils and C. piaropi and weevils alone, respectively, than in plots receiving only C. piaropi. Twenty-four days after weevil infestation, the percentage of laminar area covered by lesions on third-youngest and oldest live leaves was elevated 2.3–2.5-fold in plots augmented with weevils. Scar density and necrosis coverage on young leaf laminae were positively correlated, even though antipathogenic soluble peroxidases were elevated 3-fold in plots augmented with weevils alone or weevils and C. piaropi. Combined weevil and fungal augmentation decreased shoot densities and leaves per plant. In a no-choice bioassay, weevil feeding on oldest but not young leaves was reduced 44 two weeks after C. piaropi inoculation. Protein content and peroxidase activities were elevated 2–6-fold in oldest leaves three weeks after inoculation. Augmentation with both waterhyacinth weevils and C. piaropi led to the development of an additive biological control impact, mediated by one or more direct interactions between these agents, and not plant quality effects.     

Plant-mediated interactions between insects and a fungal plant pathogen and the role of plant chemical responses to infection

Diverse organisms simultaneously exploit plants in nature, but most studies do not examine multiple types of exploiters like phytophagous insects and fungal, bacterial, and viral plant pathogens. This study examined patterns of induction of antipathogenic peroxidase enzymes and phenolics after infection by the cucurbit scab fungus, Cladosporium cucumerinum, and then determined if induction mediated ecological effects on Colletotrichum orbiculare, another fungal pathogen, and two insect herbivores, spotted cucumber beetles, and melon aphids. Peroxidase induction occurred in inoculated, `local,' symptom-bearing leaves 3 days after inoculation, and in `systemic,' symptom-free leaves on the same plants 1 day later. Phenolics were elevated in systemic but not in local leaves 3 days after inoculation. Detached systemic leaves from plants inoculated with C. cucumerinum developed significantly fewer and smaller lesions after challenge with C. orbiculare. Spotted cucumber beetles did not show consistently significant preferences for infected versus control leaf disks in comparisons using local or systemic leaves, but trends differed significantly between leaf positions. In no-choice tests, beetles removed more leaf area from local but not from systemic infected leaves compared to control leaves, and melon aphid reproduction was enhanced on local infected leaves. In the field, cucumber beetle and melon aphid densities did not differ between infected and control plants. Antipathogenic plant chemical responses did not predict reduced herbivory by insects. Other changes in metabolism may explain the positive direction and spatially dependent nature of plant-mediated interactions between pathogens and insects in this system. Received: 28 September 1997 / Accepted: 9 February 1998     

南方红壤侵蚀区芒萁叶片对微地形的响应

植物功能性状可以反映植物应对环境变化的响应策略。该文以芒萁为研究对象,主要采用单因素方差分析和冗余分析,比较了3种微地形(沟脊、沟壁、沟底)中环境因子和芒萁叶片功能性状的差异,分析了芒萁对浅沟微地形的响应及其适应策略。结果表明:(1)芒萁叶片功能性状的总体变异程度在0.05～0.47之间,叶厚和叶面积均表现为沟底>沟壁>沟脊(P<0.05),沟壁的叶氮含量显著高于沟脊和沟底,沟脊的叶磷含量显著低于沟壁和沟底,比叶面积和叶碳含量在3种微地形间均无显著差异。(2)沟脊的芒萁通过减小叶面积来降低水分散失进行自我保护,沟壁的芒萁通过增加叶氮含量来提高叶片光合速率而促进生长,沟底的芒萁通过增大叶面积来提高光捕获能力而促进生长。综上结果认为,土壤养分和温湿条件的差异,促使芒萁通过调节营养物质含量和改变叶片形态以更好地适应环境。     

Salicylic acid induced systemic resistant on peanut against Alternaria alternata

Abstract

The effect of Salicylic Acid (SA) in inducing resistance in groundnut plants against Alternaria alternata was investigated. Foliar application of SA at the concentration of 1 mM significantly reduced the leaf blight disease intensity and increased the pod yield under glasshouse conditions. Changes in the activities of phenylalanine ammonium lyase, chitinase β-1,3 glucanase and in phenolic content on groundnut after application of SA and inoculation with A. alternate were studied. In SA-treated leaves (plants) an increase in phenolic content was observed five days after challenge inoculation with A. alternata in groundnut plants pretreated with SA. There was a marked increase in chitinase and pathogen inoculation in SA-treated leaves. In chitinase, β-1,3 glucanase activities were observed in response to plants with an increase in SA treated leaves. Foliar applications of SA-induced in peroxidase and polyphenol oxidase activities were observed upon challenge inoculation with pathogen.     

Mycorrhizal effects on the acclimatization, survival, growth and chlorophyll of micropropagated Syngonium and Draceana inoculated at weaning and hardening stages

 Micropropagated plantlets of Syngonium podophyllum and Draceana sp. were inoculated during an early weaning stage of acclimatization with a mixed indigenous consortium of arbuscular mycorrhizal (AM) fungi. Both species were colonized but a significantly higher colonization was observed (38%) in Draceana than S. podophyllum when it was harvested after 20 weeks. Draceana plants showed little difference in the extent to which they were colonized, when examined either at the weaning stage or hardening stage; however, S. podophyllum plants at the weaning stage were better colonized than at 20 weeks. Survival was high in inoculated plants at lower fertility in both hosts. Moreover, S. podophyllum showed better stolon production than uninoculated controls at both fertility levels, though the increase was higher at lower fertility. Draceana showed no response in shoot height to any treatment. Chlorophyll accumulation in both hosts was significantly influenced by inoculation, fertility and stage (weaning and hardening). A significant increment in shoot P uptake was also observed in both hosts related to inoculation, stage and fertility. Inoculation with the AM consortium had a significant and favourable effect on acclimatization of micropropagated S. podophyllum and Draceana at the weaning stage, saving almost 15 days in the total hardening process. Received: 13 August 1998 / Accepted: 25 August 1999     

Leaf shape and its relationship with Leaf Area Index in a sugar beet (<Emphasis Type="Italic">Beta vulgaris</Emphasis> L.) cultivar

Heteroblasty of sugar beet cultivar Rizor was studied under field conditions for three growing seasons (2003, 2005, 2006) in a Randomized Complete Block (RCB) design experiment. Eleven leaf samplings, from early June till the end of October, were conducted each year and leaf shape parameters [leaf area (LA), centroid X or Y (CX or CY), length (L), width (W), average radial (AR), elongation (EL), shape factor (SF)] were determined by an image analysis system. During samplings, Leaf Area Index (LAI) was measured non-destructively. Significant year and sampling effects were found for all traits determined. With the progress of the growing season, leaves became smaller (LA, L, W, and AR were decreased) and rounded. The largest leaves were sampled in 2006 when LAI was highest. LA was strongly correlated with L and W with simple functions (y = 0.1933 x^2.2238, r ² = 0.96, p<0.001, and y = 28.693 x − 192.33, r ² = 0.97, p< 0.001, respectively), which could be used for non-destructive LA determination. Also, LAI was significantly related with LA and leaf dimensions (L, W) suggesting that an easy, non-destructive determination of LAI under field conditions is feasible for sugar beet cv. Rizor. An erratum to this article is available at .     

Piriformospora indica inoculation alleviates the adverse effect of NaCl stress on growth,gas exchange and chlorophyll fluorescence in tomato (Solanum lycopersicum L.)

• Salinity is now an increasingly serious environmental issue that affects the growth and yield of many plants.
• In the present work, the influence of inoculation with the symbiotic fungus, Piriformospora indica, on gas exchange, water potential, osmolyte content, Na/K ratio and chlorophyll fluorescence of tomato plants under three salinity levels (0, 50, 100 and 150 mm NaCl) and three time periods (5, 10 and 15 days after exposure to salt) was investigated.
• Results indicate that P. indica inoculation improved growth parameters of tomato under salinity stress. This symbiotic fungus significantly increased photosynthetic pigment content under salinity, and more proline and glycine betaine accumulated in inoculated roots than in non‐inoculated roots. P. indica further significantly improved K⁺ content and reduced Na⁺ level under salinity treatment. After inoculation with the endophytic fungus, leaf physiological parameters, such as water potential, net photosynthesis, stomatal conductance and transpiration, were all higher under the salt concentrations and durations compared with controls without P. indica. With increasing salt level and salt treatment duration, values of F₀ and qP increased but F_m, F_v/F_m, F′_v/F′_m and NPQ declined in the controls, while inoculation with P. indica improved these values.
• The results indicate that the negative effects of NaCl on tomato plants were alleviated after P. indica inoculation, probably by improving physiological parameters such as water status and photosynthesis.

     

Root morphology and water transport of Pistacia lentiscus seedlings under contrasting water supply: A test of the pipe stem theory

Restoration of degraded Mediterranean areas often requires the reintroduction of key-stone woody species but the establishment of seedlings of native species is frequently poor. This is partly due to insufficient knowledge of the ecology of these species at the seedling stage. Fast rooting and efficient water supply under water limiting conditions may be crucial to withstand summer drought and ensure establishment. However, knowledge of the relationship between root morphology and the water transport capacity of Mediterranean woody species in response to drought is still scarce. We evaluated the effect of low water availability on biomass allocation, root morphology and transpiration of a common Mediterranean shrub species, Pistacia lentiscus L. Seedlings of this species were grown in pots filled with soil under glasshouse conditions for 6 months, and irrigated either weekly (W+) or monthly (W?). Low water availability strongly reduced all fractions of biomass, and decreased relative biomass allocation belowground. Average diameter of fine roots colonising the soil was higher in W+ plants, but this resulted in only marginal effects on specific root length. Water limitation did not affect the topology of secondary roots colonising the soil. Surprisingly, the ratio of leaf area to coloniser roots surface area was higher in W? seedlings. Sapwood area was strongly correlated with leaf area, secondary roots cross-sectional area, and surface area of fine roots colonising the soil when all seedlings were pooled. In agreement with the pipe stem theory, the ratio of sapwood area to leaf area was not affected by watering regime. Plant water loss when soils were taken to field capacity was significantly correlated with leaf area, sapwood area, secondary roots cross-section area and coloniser roots surface area. Water loss at high water availability was greatly reduced in W? plants, as leaf area decreased and transpiration rates on a leaf area basis were similar in W+ and W? seedlings. P. lentiscus showed limited capacity to acclimate to low water availability by modifying biomass allocation and root morphology. Thus, parallel to what has been observed aboveground, this species can benefit from periods of high water availability by showing relatively high root growth rates, but may respond poorly to water scarcity.     

The response of Glomus fistulosum–maize mycorrhiza to treatments with culture fractions from Pseudomonas putida

 This study examined which culture fraction of the plant-growth-promoting bacterium Pseudomonas putida (Trevisan) Migula has an effect on growth and mycorrhiza formation of maize (Zea mays L.). Shoot dry weight and total leaf area of plants did not increase after inoculation with Glomus fistulosum but were significantly higher than the controls when the plants were dualinoculated with G. fistulosum and living cells of P. putida. Mycorrhizal infection of the roots was significantly higher when plants were inoculated with G. fistulosum together with living cells of P. putida or with G. fistulosum and dialysed cell extracts of P. putida than with G. fistulosum alone. Development of arbuscular mycorrhizal (AM) extraradical hyphae and the proportion of extraradical hyphae showing NADH diaphorase activity were significantly enhanced by inoculation of plants with living cells of P. putida or dialysed cell extracts of P. putida. No stimulation of extraradical hyphae proliferation from in vitro incubated mycorrhizal root segments was observed after application of culture fractions of P. putida. However, the percentage contamination of the root segments by extraneous filamentous fungi significantly decreased in the presence of livingcells of P. putida. Accepted: 12 January 1996     

Effect of pRi T-DNA transformation on growth and gas exchange of transplanted tobacco regenerants of the T and T′ phenotypes

Five independent tobacco regenerant clones obtained after transformation withAgrobdcterium rhizogenes strain TR101 (four clones of the T phenotype, clone 5 a mixture of plants of the T and T′ phenotypes) and untransformed plants cultivatedin vitro were gradually acclimated to the atmosphere and transferred to the soil substrate in pots. During 28 d after transplanting the increase of the leaf area was in T phenotype plants greater than in untransformed plants, but 14 d later no significant differences were observed between T phenotype and untransformed plants in leaf area and dry matter. T′phenotype plants, however, had significantly lower values in all growth parameters than T phenotype and control plants. Abaxial net photosynthetic CO₂ uptake (PN) was in both T (clones 1–4) and T′ plants significantly lower than that in control and clone 5T plants. Nevertheless, due to the relatively higher adaxial PN in T plants, the total PN through both leaf surfaces was significantly lower only in clone 4 and clone 5′ plants. The tendency to higher transpiration rates (E) in clones 1 – 4 in comparison with the control resulted in significant differences in water use efficiency (W.U.E.). Relatively higher E in T plants of clones 1 – 4 was connected most probably with their more developed root system (greater root dry-matter) than in untransformed plants, because no influence of the differences in stornata density on E was found.