Effect of timing of application of Nosema marucae on the control of the spotted stalk borer Chilo partellus infesting sorghum

A local variety of sorghum (Serena) was planted in a screenhouse and infested with first‐instar Chilo partellus larvae. Sorghum rows were then inoculated at random with an aqueous suspension of Nosema marucae containing 1.6 ×10⁸ spores ml^‐1 at 2‐day intervals from 1 to 16 days after infestation (DAI). Foliar damage was low in plants inoculated with the pathogen at 1 and 3 DAI, where the highest score was 0.2 on a scale of 0–9. However, leaf damage increased rapidly as the interval between infestation and spraying of N. marucae became longer. At 19 DAI the foliar damage score on plants that had been inoculated at day 16 was 8.4. Similarly, the proportion of plants with either fully or partially formed heads decreased from 97.9% in plants sprayed at 3 DAI, to 10.8% at 11 DAI and 0% at 16 DAI. The timing of application of N. marucae is therefore important in the utilization of the microsporidian for the biological control of stem‐boring lepidopterans. This study suggests that a single, well timed application of Nosema spores can effectively control C. partellus for up to 19 days following oviposition.     

N-fertilizer saving by the inoculation of Gluconacetobacter diazotrophicus and Herbaspirillum sp. in micropropagated sugarcane plants

Colonization of micropropagated sugarcane plants by Gluconacetobacter diazotrophicus and Herbaspirillum sp. was confirmed by a dot-immunoblot assay. In all, a 45-day short-term and 180-day long-term experiments conducted on micropropagated sugarcane plants of Co 86032, a sugar rich popular variety in South India, indicated the usefulness of these diazotrophs as plant growth promoting bacteria. Co-inoculation of these two bacteria enhanced the biomass considerably under N-limited condition in the short duration experiment. In the long-term experiment, the establishment of inoculated Herbaspirillum sp. remained stable with the age of the crop up to 180 days, while there was a reduction in population of G. diazotrophicus for the same period. The total bio-mass and leaf N were higher in plants inoculated with G. diazotrophicus and Herbaspirillum sp. without N fertilization and also in plants with 50% of the recommended N (140 kg ha(-1)) than the plants fertilized with recommended dose of inorganic N (280 kg ha(-1)). This experiment showed that inoculation with these bacteria in sugarcane variety Co 86032 could mitigate fertilizer N application considerably in sugarcane cultivation.     

外生菌根真菌菌丝对马尾松苗氮素传递的影响

为探究外生菌根真菌菌丝对马尾松Pinus massoniana幼苗氮素的吸收、传递及分配规律的影响,本研究应用¹⁵N示踪技术,采用四室隔网系统进行盆栽试验。研究表明：供体接种外生菌根真菌后,根外菌丝能够穿过粘土层和隔离层到达受体室,在供、受体植株之间形成菌丝桥。接种不同外生菌根真菌均显著增加供体植株苗高、地径及生物量(P<0.05),但对受体植株的影响有差异,其中接种橙黄硬皮马勃Scleroderma citrinum (Sc)对植株苗高、地径及生物量具有显著的促进作用(P<0.05)。接种对供、受体植株全氮含量无显著性的规律(P>0.05),只有接种东方豆马勃Pisolithus orientalis (Po)的植株全氮含量显著高于其他处理。接种能够显著提高供体植株根、茎、叶的吸氮量,且叶>根>茎,受体植株中,接种Po、Sc和褐环乳牛肝菌Suillus luteus (Sl)的植株总吸氮量较不接种(NE)显著增加(P<0.05),而接种混合菌(Sm)的植株与NE无显著差异(P>0.05)。接种Sl的植株¹⁵N传递率最高(75.86%),受体植株对¹⁵N吸收量最大(91.68 μg/pot),Po次之。供体植株中,除接种Sl的植株¹⁵N主要分配在叶外,其他处理的¹⁵N分配中心均在根部,在受体植株中,接种Po、Sl、Sm的植株¹⁵N主要分配在根部,而NE和接种Sc的植株¹⁵N主要分配在茎。综上,在马尾松供、受体苗木间能形成菌丝桥,接种外生菌根真菌能够促进马尾松供体植株苗高、地径的生长及生物量的积累,提高植株吸氮量,对于受体植株不同菌种的作用有差异,其中接种Sc的苗木表现最好。此外,不同的菌种菌丝对植株的全氮含量、¹⁵N吸收量、传递率及分配率的影响也不同,其中,以接种Po和Sl的苗木表现较好。     

Studies on the nature of resistance in tomato plants to Verticillium albo-atrum

Extracts of healthy resistant and of healthy susceptible plants of tomato had the same effect on growth of Verticillium albo-atrum in vitro. Tracheal saps from resistant and from susceptible plants showed no difference in their effect on spore germination and mycelial growth of V. albo-atrum. Cuttings from resistant plants, inoculated with V. albo-atrum and fed with low concentrations of casamino acids, or glucose, at first wilted more than controls but soon recovered. Continuous treatment with dilute ethanol solutions for 2 weeks induced marked wilting in inoculated cuttings of resistant plants: treatment for shorter periods caused less severe symptoms, from which cuttings recovered slowly. Metabolic inhibitors did not break resistance of cuttings, but the pathogen survived longer in cuttings treated with sodium diethyldithiocarbamate, salicylaldoxime or 8-hydroxyquinoline than in controls. When one end of segments of stems of resistant plants was inoculated with the pathogen, and 48 h later the uninoculated end was placed near a colony of V. albo-atrum on agar, growth of the fungus colony towards the stem segment was sometimes inhibited. There was no such inhibition when segments from susceptible plants were used. Both tracheal sap and diffusates from segments of inoculated resistant plants supported less growth of germ tubes of V. albo-atrum than sap and diffusates from uninoculated plants. These differences were not obtained with the susceptible variety and production of fungitoxic substances in resistant plants after infection is inferred.     

超量表达MrCN基因提高烟草植株对TMV的抗性

利用农杆菌介导的遗传转化法将含有普通烟草Ubi．U4启动子驱动MrCN基因表达的元件导入TMV敏感烟草品种K326中,对筛选鉴定出的T0代转基因植株接种TMV,测定其接种前后不同时期的理化指标,以接种TMV的野生型植株为对照。结果显示,转基因植株和野生型植株接种TMV前叶绿素（Chl）和MDA含量YLSOD、POD和CAT酶活力均无显著差异,但接种TMV后野生型植株Chl含量逐渐降低,转基因植株Chl含量先增后降,在接种TMV后5d时转基因植株叶片Chl含量显著高于野生型植株。接种前期（0-3d）转基因植株MDA含量略低于野生型植株,但差异不显著;但接种后期（3～5d）前者的MDA含量显著低于后者。接种TMV后转基因植株中SOD、POD及CAT酶活性变化幅度较野生型植株高,以CAT的变幅最为显著。另外,Real-timePCR分析结果表明,接种TMV后3d时转基因植株删蹦、PR-1α及NrCN表达量均显著高于野生型植株。以上结果表明,通过转基因技术提高烟草抗病基NNrCN的表达量,能提高防御酶活性及病程相关基因的表达量,从而延缓植株感染TMV的发病时间,增强敏感植株对TMV的抗性。     

The effect on yield in courgette and marrow of the mild strain of zucchini yellow mosaic virus used for cross-protection

The effects on yield in courgette and marrow (Cucurbita pepo) crops resulting from inoculation with the mild strain of zucchini yellow mosaic virus (ZYMV:WK), have been determined in polythene-house trials and in three years of outdoor, commercial field trials. In polythene-house trials ZYMV:WK inoculated plants were up to 10 days later in flowering than uninoculated plants and their cumulative yields were between 5% and 26% less than uninoculated plants depending on the cultivar. In most field trials cumulative yields from inoculated plants were between 4% and 38% less than uninoculated plants depending on the site and cultivar, but in one trial the yield was 7% higher from inoculated plants. In all experiments, courgette and marrow fruits harvested from ZYMV:WK inoculated plants were symptomless and indistinguishable from fruit harvested from uninoculated plants. The mild leaf symptoms induced by ZYMV:WK infection did not intensify to severe leaf symptoms and where there were natural outbreaks of severe ZYMV infection, fruits from inoculated plants remained symptomless whilst those from uninoculated plants were severely affected and unmarketable.     

Evaluation of methods of screening strawberry cultivars for resistance to crown rot caused by Phytophthora cactorum

Four methods were evaluated in measuring resistance of strawberry cultivars to crown rot caused by Phytophthora cactorum. Meristem propagated plants grown in vitro were inoculated with mycelial discs. Four to five days after inoculation, it was possible to distinguish between cultivars with large differences in susceptibility to the disease. Ten days later, all plants were totally necrotic making it impossible to distinguish between cultivars. When detached leaves were inoculated by inoculating a plug of mycelium into the petiole, disease symptoms developed more slowly in resistant cultivars, but leaf age greatly affected the rate of symptom development. When plug plants (not cold stored) were lightly wounded in the rhizome with a scalpel and inoculated with either zoospores or mycelium, differences in disease development between cultivars were mainly as would be expected from previous information on susceptibility, but both age and size of plants influenced the rate of disease development. Unwounded, inoculated plants did not develop symptoms. When cold‐stored plug plants were either unwounded or lightly wounded with a scalpel in the rhizome and inoculated with zoospores, the relative rates of disease development consistently reflected the susceptibility to crown rot. At the time of final assessment, disease was much more severe in wounded plants, but the relative susceptibility of cultivars was not affected by the wounding.     

Effect of Plant Age on Resistance of Alfalfa to Meloidogyne hapla

Meloidogyne hapla-resistant plants grown from cuttings and inoculated with M. hapla larvae were free of galls. However, 35 to 48% of the seedling intercross progeny of resistant genotypes that were inoculated in the germinated seed stage were galled. There was an inverse relationship between the age of plants grown from seed and the percentage of plants galled by M. hapla; the older the plants at inoculation, the greater the percentage of gall-free plants. The per cent of galled plants was significantly reduced when galled roots were removed and plants reinoculated. Reproduction of M. hapla on galled progeny of resistant plants was significantly less than that on susceptible plants. There were no differences in nematode reproduction on galled progeny of resistant plants, regardless of age at time of inoculation. An in,ease in inoculum levels from 100 to 10,000 M. hapla larvae did not affect resistance or susceptility. There was a direct correlation between galling of inoculated seedlings of resistant progeny and temperature; inoculated 8-week-old cuttings of resistant plants were galled only at 32 C.     

Distribution and accumulation of PVM and PVY,PVX in infected potato plants

The ability of PVM, PVY and PVX viruses and their progeny to distribute themselves and accumulate in primary infected potato plants by mono‐ and mixed infections is analysed. It is shown, that the transport and accumulation of virus in inoculated potato plants depends on variety resistance, combination of viruses and sequence of their application.     

Dynamics of Myzus persicae arrestment by volatiles from Potato leafroll virus‐infected potato plants during disease progression

Green peach aphid, Myzus persicae (Sulzer) (Hemiptera: Aphididae), an important pest of potato (Solanum tuberosum L.) (Solanaceae), preferentially settles on Potato leafroll virus (PLRV)‐infected potato plants as compared with non‐infected ones, primarily in response to volatile organic compounds (VOCs) released by the plants. In this study, we examined the dynamics of these effects, measuring arrestment of apterous M. persicae in response to VOC from upper, middle, and lower leaflets of PLRV‐infected potato plants at the same stage in disease progression (4 weeks after inoculation), but inoculated at 1, 3, or 5 weeks after transplanting (WAT). Sham‐inoculated plants were used as controls and VOC were collected and quantified. Aphid arrestment was greater on PLRV‐infected plants inoculated at 1 and 3 WAT as compared with sham‐inoculated plants, but this preference was reversed in plants inoculated at 5 WAT. Relative arrestment of M. persicae by infected plants and VOC release was greater for lower and middle leaflets than for upper leaflets at 1 and 3 WAT compared to sham‐inoculated plants. The reverse was observed in plants inoculated at 5 WAT. Findings indicate that aphid preference is influenced by VOC release from PLRV‐ or sham‐inoculated potato plants and that VOC emissions and aphid preference depend upon the age at inoculation and leaf position within the potato plants. The implications of these dynamics in vector behavior for spread of PLRV in the field in natural and managed systems are discussed.     

Temporal Dynamics of Powdery Mildew (Oidium neolycopersici) and its Effects on the Host Growth Dynamics of Tomato

Controlled glasshouse experiments were conducted to investigate the temporal progress of powdery mildew and its effects on host dynamics of tomato, without and with one fungicide application. Healthy tomato transplants (5‐ to 6‐week old) were artificially inoculated with powdery mildew, and disease progress as well as host growth were monitored in both fungicide sprayed and unsprayed treatments and compared with non‐inoculated plants. Actual disease severity on a plant basis increased in unsprayed plants reaching maximum severity in the proportionate range of 0.53–0.83. One fungicide spray significantly reduced the maximum disease severity by two‐ to fourfolds. Despite adjustments for defoliation, declines in the proportion of disease severity between successive assessments were evident. Whereas the estimated growth rates of diseased plants were significantly lower than that of healthy plants, no significant differences were observed in the maximum leaf area formed of inoculated and non‐inoculated plants. A considerable effect of the powdery mildew epidemics was manifested through hastened shrivelling and defoliation of diseased leaves within the tomato canopy. An average of 18–29% and 40–52% of leaves had abscised from the plant canopy at the last date of assessment in sprayed and non‐sprayed plants, respectively. Accordingly, defoliation accounted for 14–33.3% and 58.3–63.1% losses in leaf area of sprayed and non‐sprayed plants, respectively. Duration of healthy leaf area and yield of inoculated plants were also significantly reduced by powdery mildew epidemics.     

Gas Exchange and Flowering in Verticillium-wilted Pepper Plants

In Navarra, Northern Spain, Verticillium dahliae Kleb. is one of the pathogens that causes drastic reductions in pepper production. The aim of this study therefore was to describe how infection by V. dahliae affects gas exchange during the flowering of pepper in order to determine some possible factors contributing to the significant decrease of plant yield. Verticillium was inoculated when plants had started flowering. The first leaf wilting symptoms appeared on day 18 after inoculation, but leaf water potential rapidly decreased after infection. The inoculated plants produced more flowers than the controls between 15 and 33 days after inoculation, but flower production declined after day 33. Inoculated plants also suffered more defoliation and chlorophyll degradation. Leaf conductance and photosynthesis clearly decreased in both groups of plants as a consequence of senescence, but the values in those inoculated were significantly lower. Results suggest that the decrease in photosynthesis was in part due to defoliation and chlorophyll degradation, as well as premature flower fall. These factors contributed to the negative effects of Verticillium infection on pepper yield.     

Potential to improve transfer of N in intercropped systems by optimising host-endophyte combinations

Possibilities for improving N transfer from N2-fixing plants to non-N2-fixing plants by mycorrhiza have been investigated. Initially, the genetic variability with respect to N uptake was assessed by screening five varieties of chicory (Cichorium intybus L.), four of peas (Pisum sativum L.) and three of red clover (Trifolium pratense L.) in combination with eight isolates of arbuscular mycorrhizal fungi. The most promising plant - fungi combinations identified through the cultivar screening were used to optimise conditions for N transfer between intercropped N2-fixing plants (peas and clover) and non-N2-fixing chicory. In the first experiment, the recovery of fixed legume N was investigated using three cultivars, of chicory intercropped with pea variety, and inoculated with one of four mycorrhizal isolates. Roots of the N2-fixing pea and the non-N2-fixing chicory were separated by a root-free soil layer in a three-compartment container. A section of the legume roots was forced to grow into a separate compartment which received four split applications of ¹⁵N. The percentage of N in the chicory derived from transfer ranged between 3% and 50%. In a second experiment one chicory variety was intercropped with one red clover variety and inoculated with four mycorrhizal isolates respecetively. A harvest regime was chosen in which the shoots were harvested from intercropped plants at 3,4.5 and 6 months of age. At three months the percentage of N in the chicory derived from transfer ranged between 15% and 18% and at a plant age of 4.5 months from 46 to 77%. At six months the percentage of N in the chicory roots derived from transfer of legume N ranged from 20 to 34% and varied with fungal isolate. Our results show that there is potential for improving N transfer in intercropped plant systems through the methodological selection of suitable plant and mycorrhizal partners.     

Jellyfish green fluorescent protein as a reporter for virus infections

The gene encoding green fluorescent protein (GFP) of Aequorea victoria was introduced into the expression cassette of a virus vector based on potato virus X (PVX). Host plants of PVX inoculated with PVX.GFP became systemically infected. Production of GFP in these plants was detected initially between 1 and 2 days postinoculation by the presence of regions on the inoculated leaf that fluoresced bright green under UV light. Subsequently, this green fluorescence was evident in systemically infected tissue. The fluorescence could be detected by several methods. The simplest of these was by looking at the UV-illuminated plants in a darkened room. The PVX.GFP-infected tissue has been analysed either by epifluorescence or confocal laser scanning microscopy. These microscopical methods allow the presence of the virus to be localized to individual infected cells. It was also possible to detect the green fluorescence by spectroscopy or by electrophoresis of extracts from infected plants. To illustrate the potential application of this reporter gene in virological studies a derivative of PVX.GFP was constructed in which the coat protein gene of PVX was replaced by GFP. Confocal laser scanning microscopy of the inoculated tissue showed that the virus was restricted to the inoculated cells thereby confirming earlier speculation that the PVX coat protein is essential for cell-to-cell movement. It is likely that GFP will be useful as a reporter gene in transgenic plants as well as in virus-infected tissue.     

Factors affecting aphid acquisition and transmission of soybean mosaic virus

Myzus persicae transmitted soybean mosaic virus (SMV) most efficiently following 30 or 60 s acquisition probes on infected plants. There were no differences in susceptibility to SMV infection of soybean plants 1 to 12 wk old, but symptoms were more severe in plants inoculated when young than when old. Soybeans inoculated between developmental stages R3 and R6 only showed yellowish-brown blotching on one or more leaves. There were no observable differences in the time of appearance or type of symptoms shown by soybean seedlings inoculated either by sap or by aphids; infected plants became acquisition hosts for aphids 5–6 days after inoculation. There was no change in the efficiency with which M. persicae transmitted SMV from source plants up to 18 wk after inoculation. M. persicae transmitted SMV from leaves of field-grown soybeans when plants were inoculated at developmental stages V6, R2, and R3 and tested as sources 57–74 days after inoculation but not from plants inoculated at R5 and tested as sources 14 to 32 days after inoculation. M. persicae acquired SMV from soybean buds, flowers, green bean pods, and unifoliolate, trifoliolate, and senescent leaves. Middle-aged and deformed leaves were better sources of the virus than buds, unfolding and old symptomless leaves. The results are being incorporated into a computer model of SMV epidemiology.     

Interactions between a seed-borne strain of cucumber mosaic cucumovirus and its lupin host

The relationship between time of inoculation with cucumber mosaic cucumovirus (CMV) and the growth, seed production and rate of seed transmission of virus in lupin (Lupinus angustifolius cv. Illyarrie) was studied in field-grown plants. Plants inoculated at the seedling stage (2 days post-emergence) showed 45% mortality. Plants infected through the seed were more stunted than plants inoculated at the seedling stage. Plants inoculated up to the mid-vegetative growth stage (58 days post-emergence) yielded ≤ 27% of the dry matter and ≤ 9% of the seed of healthy plants. Late inoculation (114 days post-emergence) did not affect dry matter yield, but reduced seed yield to 75% of that of healthy plants. Rate of seed transmission depended on the time of inoculation of plants. The maximum rate was 24.5% for plants that were inoculated at the mid-vegetative growth stage (58 days post-emergence). However, early inoculation caused a large reduction in seed yield, and it was shown that plants inoculated at the beginning of flowering (94 days post-emergence) produced greater numbers of infected progeny than plants inoculated at earlier or later times. No relationship was observed between seed weight and transmission of CMV. Infectious CMV was recovered from the embryo, but not from the testa. A simple seed transmission model was used to evaluate several hypothetical epidemics and to determine the time of inoculation which results in greatest rates of seed transmission of CMV. For example, when fewer than 73% of plants in a crop become infected with CMV, then the rate of transmission of virus in crop seeds will be greatest when inoculations are at the beginning of flowering.     

Arbuscular mycorrhizal fungi influence life history traits of a lepidopteran herbivore

Results from pot and microcosm studies in the greenhouse have shown that plant growth and foliar chemistry is altered by the presence and species composition of arbuscular mycorrhizal fungi (AMF). The growth and survival of herbivores which feed on plants could, as a consequence, also be affected by these mutualistic soil fungi. Consequently, interactions between AMF, plants and herbivores could occur. To test this, larvae of the common blue butterfly, Polyommatus icarus (Lycaenidae), were fed with sprigs of Lotus corniculatus (Fabaceae) plants which were inoculated with one of two different AMF species, with a mixture of these AMF species or with sprigs of plants which were not inoculated with AMF. Survival and larval weight of third instar larvae fed with plants colonised by AMF were greater than those of larvae fed with non-mycorrhizal plants. Survival of larvae feeding on non-mycorrhizal plants was 1.6 times lower than that of larvae feeding on plants inoculated with a mixture of AMF species and 3.8 times lower than that of larvae feeding on plants inoculated with single AMF species. Furthermore, larvae fed with non-mycorrhizal plants attained only about half the weight of larvae fed with mycorrhizal plants after 11 days of growth. These differences in larval performance might be explained by differences in leaf chemistry, since mycorrhizal plants had a 3 times higher leaf P concentration and a higher C/N-ratio. Our results, thus, show that the presence of belowground mutualistic soil fungi influences the performance of aboveground herbivores by altering their food quality. Larval consumption, larval food use and adult lipid concentrations of the common blue butterfly differed between larvae which were fed with plants inoculated with different AMF species. This suggests that the performance of herbivores is not only influenced by the presence of AMF but also depends on the identity of the AMF species colonising the host plants. Moreover, a significant interaction term between AMF species and maternal identity of the larvae occurred for adult dry weight, indicating that the performance of offspring from different females was differently influenced by AMF species composition. To our knowledge, these results show for the first time that the species composition of AMF communities can influence life-history traits of butterfly larvae and possibly herbivores in general.     

Allantoin metabolism in soybean plants as influenced by grafts, a delayed inoculation with Rhizobium, and a late supply of nitrogen-compounds

Reciprocal grafts between A62-1 (nodulating variety) and A62-2(non-nodulating variety) of soybeans, delayed inoculation withRhizobium and a late supply of N-compounds to nodulated anddenodulated A62-1 plants were tested to study the regulationof allantoin production in soybeans. In the upper portions of stems of the A62-2 plants grafted ontoA62-1 plants, allantoin was accumulated in a significant quantity,but lower than the ungrafted intact A62-1 plants. The concentrationsof odier nitrogenous and sugar components were similar to thoseof the ungrafted A62-1 plants. On the other hand, in the upperstems of the A62-1 plants grafted onto A62-2 plants, littleallantoin was accumulated and the concentrations of variouscomponents were similar to those of the ungrafted intact A62-2plants. A62-1 and A62-2 plants not inoculated with Rhizobium showedapproximately the same levels of allantoin and of other componentswhen the same concentration of Ncompounds was supplied. Witha late inoculation, A62-1 plants showed a delayed accumulationof allantoin in accordance with the delayed development of nodules. When nodulated soygean plants were denodulated, the allantoinconcentration in the stems and roots rapidly decreased. Additionof ammonia, urea, or nitrate to the denodulated plants retardedthe decrease of allantoin concentration in the stems, but maintainedthe soluble Kjeldahl-N and amino-N concentrations at the samelevels as those in nodulated plants. In contrast, addition ofany one to nodulated plants did not increase the allantoin accumulation. (Received April 17, 1978; )     

Arbuscular mycorrhiza decreases cadmium phytoextraction by transgenic tobacco with inserted metallothionein

The effect of arbuscular mycorrhiza (AM) on the phytoextraction efficiency of transgenic tobacco with increased ability to tolerate and accumulate cadmium (Cd) was tested in a pot experiment. The tobacco plants bearing the yeast metallothionein CUP1 combined with a polyhistidine cluster were compared to non-transgenic tobacco of the same variety at four Cd concentrations in soil, non-inoculated or inoculated with two isolates of the AM fungus Glomus intraradices. Mycorrhizal inoculation improved the growth of both the transgenic and non-transgenic tobacco and decreased Cd concentrations in shoots and root to shoot translocation. Differences were found between the two AM fungal isolates: one isolate supported more efficient phosphorus uptake and plant growth in the soil without Cd addition, while the other isolate alleviated the inhibitory effect of cadmium on plant growth. The resulting effect of inoculation on Cd accumulation was dependent on Cd level in soil and differed between the more Cd tolerant transgenic plants and the less tolerant non-transgenic plants. Mycorrhiza mostly decreased the phytoextraction efficiency of transgenic plants while increased that of non-transgenic plants at Cd levels in soil inhibitory to tobacco growth. Mechanisms of the observed effects of inoculation on growth and Cd uptake are discussed as well as the possible implications of the results for the exploitation of AM in phytoextraction of heavy metals from contaminated soils.     

The impact of arbuscular mycorrhizal fungi on tomato plant resistance against Tuta absoluta (Meyrick) in greenhouse conditions

The symbiotic relationship between plants and arbuscular mycorrhizal fungi (AMF) improves plant growth and increases its resistance to pests and diseases. Mycorrhizal fungi are among the specialized fungi associated with the rhizosphere and are completely dependent on plant organic carbon. In this research tomato, Solanum lycopersicum L. was used as the host plant to evaluate the interaction effects between inoculation of tomato plant with AMF and feeding of tomato leaf miner, Tuta absoluta (Meyrick). In addition, plant growth parameters and growth rate of insect were assessed. The mycorrhizal treatment included a mixture of four fungal species (Funneliformis mosseae, Rhizophagus intraradices, R. irregularis and Glomus iranicus). The results of the experiment showed that tomato plant roots were well colonized (66.29%) by AMF and there was a significant mutual relationship between the insects feeding on the plants and the fungi. Feeding by the insects on plants inoculated with the fungus increased percentage of colonization by AMF in plants infested with the insect as compared to the control plants. The results also indicated that growth parameters and phosphorus content of the plants inoculated with fungi significantly increased compared to the control group. Moreover, significantly lower growth rate and consumption index observed in the T. absoluta larvae were fed on the leaves of plants treated with AMF compared to leaves of plants not inoculated with AMF.