On the Structure of the Seeds of Williamsonia Collected from the Middle Jurassic Rocks of Amarjola in the Rajmahal Hills, India

Seeds of Williamsonia collected from Amarjola in the RajmahalHills, Bihar, are described. Mature seeds are found in ripe,naked, bractless fructifications. Seeds are oblong or ovate,stalked, dicotyledonous, partially endospermic, and have longmicropyles. The seed coat is differentiated into an outer coveringof tubular cells, middle parenchymatous true integument, andan inner vascularized layer which forms after fertilizationand as a result of modification of the peripheral portion ofnucellus.     

Leaf elongation and water relations of mycorrhizal sorghum in response to partial soil drying: two Glomus species at varying phosphorus fertilization

Arbuscular mycorrhizal symbiosis has previously been shown toalter the response of sorghum leaves to probable non-hydraulicsignals of soil drying. Our objectives here were to determine:(1) how changes in phosphorus nutrition affect this root-to-shootsignalling in sorghum, (2) if mycorrhizal symbiosis can affectthe signalling process independently of effects on host P nutrition,and (3) how two Glomus species compare in their influence onsignalling. Sorghum bicolor (L.) Moench ‘G1990A’ plants weregrown with root systems split between two pots. The 332 experimentaldesign included three levels of mycorrhizae (Glomus intraradicesSchenck & Smith, Glomus etunicatum Becker & Gerd., non-mycorrhizal),three levels of phosphorus fertilization and two levels of water(fully watered, half-dried). Declines in leaf elongation with soil drying were more consistentin non-mycorrhizal than mycorrhizal plants. Relative growthrate (RGR) of both mycorrhizal and non-mycorrhizal plants initiallydeclined when water was withheld from about half of the rootsystem. With further soil drying, RGR of mycorrhizal plantseventually returned to control levels, while RGR of non-mycorrhizalplants remained depressed throughout the drying episode. Bythe end of the drying episode, mycorrhizal symbiosis had eliminateddrying-induced declines in total plant leaf length. Shoot androot dry weight declines of half-dried plants were not affectedby mycorrhizae. Declines in stomatal conductance with soil dryingwere larger and more frequent in non-mycorrhizal than mycorrhizalplants. Leaf osmotic potential and relative water content remainedsimilar in control and half-dried plants during drying, suggestingthat altered leaf behaviour of half-dried plants was due tosome non-hydraulic factor. The two fungi did not differ substantiallyin their influence on leaf behaviour. The applied phosphorustreatments did not affect either growth or stomatal responseof halfdried plants to the root-to-shoot signal, but lengthdeclines were related to actual leaf phosphorus concentrations.Rate of soil drying did not appear to influence ultimate growthreductions. We conclude that mycorrhizal fungi can modify leaf growth responseto the root-to-shoot signal of soil drying, and that this mycorrhizaleffect can occur independently of mycorrhizal effects on plantsize or phosphorus nutrition. However, plant size and nutrition,which are commonly affected by mycorrhizal symbiosis, can alsomodify the signalling process. Key words: Drought, nutrition, root signal, Sorghum bicolor, vesicular-arbuscular     

Influence of Endomycorrhizal Infection on Root Morphology in a Micropropagated Woody Plant Species (Vitis vinifera L.)

The influence of vesicular-arbuscular (VA) endomycorrhizal infectionon root morphology and architecture of a woody micropropagatedplant, Vitis vinifera L., has been investigated using morphologicalanalysis, modelling and topological methods. Endomycorrhizaformation caused increases in lateral root number and consequentlytotal root length but did not alter the number of root axes.The rate of production of any order lateral roots was higherin mycorrhizal than non-mycorrhizal controls. The number offirst- and second-order laterals increased linearly with timein mycorrhizal plants whilst in control plants both fitted alogistic function. Topological analysis indicated similar patternsof root branching in the early stages of growth, but the rootsystem of non-mycorrhizal plants adopted a more herringbonepattern after 8 weeks, whereas that of mycorrhizal plants retaineda more dichotomous pattern with repeated bifurcation. Althoughthe root system pattern of non-mycorrhizal vines is more efficientin exploring soil, it is more expensive for the plant in termsof energy cost versus return benefit (nutrient acquisition).In contrast mycorrhizal plants develop a more economical rootsystem which is rendered more efficient by the direct role ofthe mycorrhizal fungus in assisting nutrient absorption. Vitis vinifera L., vine, root system, modelling, topology, vesicular-arbuscular mycorrhizae     

Effect of Plant Growth Promoting Bacillus Strains on Pine and Spruce Seedling Growth and Mycorrhizal Infection

Rifamycin-resistant derivatives of plant growth promotingBacilluspolymyxa strains L6, Pw-2, and S20 were used to evaluate theinteraction of bacterial–mycorrhizal co-inoculation onpine and spruce seedling growth. We were particularly interestedin determining if the mechanism by which bacteria stimulatedseedling growth depended on the presence of ectomycorrhizae.Mycorrhizal inoculum was introduced by adding 2ml of one ofsix forest floor soil types originating from different spruceand pine stands to seedling containers. Mycorrhizal roots developedin 34% of pine and 27% of spruce seedlings treated with forestsoil, but no differences between forest soils were detected.Most mycorrhizae were formed byWilcoxinasp. (E-strain) (98%for spruce and 67% for pine); small numbers ofAmphinema-like,Myceliumradicis atrovirens, Suillus-like,Thelephora-like, andTuber-likemycorrhizae were also found on pine (27% in total).Thelephora-likefungi comprised 2% of spruce mycorrhize. In the absence of bacterialinoculum, spruce seedling biomass was positively correlatedwith the number of mycorrhizal root tips, but this trend wasnot detected in spruce inoculated with bacteria or in pine.Bacterial inoculation did not influence the mycorrhizal statusof seedlings, but all threeBacillusstrains stimulated growthof both conifer species. Root biomass, in particular, was significantlyenhanced by up to 18% compared with uninoculated controls. Mycorrhizalfungi improved the growth of spruce seedlings, but plant growthpromotion byBacilluswas similar for mycorrizal and non-mycorrhizalseedlings of both species. Our results suggest thatBacillusstrainsL6-16R, Pw-2R, and S20-R enhance conifer seedling growth througha mechanism unrelated to mycorrhizal fungi. Hybrid spruce; Picea glaucaxengelmannii ; lodgepole pine; Pinus contortavar.latifoliaEngelm.; inoculation; Bacillus polymyxa; seedling growth promotion; mycorrhizae     

Increase in the Formation and Nitrogen Fixation of Soybean Nodules by Vesicular-Arbuscular Mycorrhiza

Symbiotic interactions of the tripartite association of soybeanplant, vesiculararbuscular (VA) mycorrhizal fungus and Rhizobiumjaponicum were shown. Mycorrhizal plants absorbed more P, Ca and Mg and had higherP, Ca and Mg contents in their stems or leaves than non-mycorrhizalplants. Phosphorus concentration was also higher in the nodulesof mycorrhizal plants. VA mycorrhizae increased nodule number, nodule weight and acetylenereduction activity of nodules. Concomitantly seed productionand N content of leaves were enhanced. Both nodulating (A62-1) and non-nodulating (A62-2) cultivarsof soybean plants [Glycine max (L.) Merr.] were colonized byVA mycorrhizal fungi, identified as belonging to the genus Glomus. (Received August 12, 1985; Accepted January 14, 1986)     

A New Species of Scutellospora with a Coiled Germination Shield

During a survey of mycorrhizal fungi on the upper part of theCisadane River, on the slopes of Mount Pangrango in Gede PangrangoNational Park, West Java, an undescribed species of Scutellospora(Glomales)was discovered. This species has metallic golden to yellow toyellowish-brown spores that possess columnar protuberances.It is described and named Scutellospora projecturata sp. nov.The sequence of the nearly complete SSU rRNA gene was analysedand phylogenetic trees constructed. Copyright 2000 Annals ofBotany Company Scutellospora projecturata, Glomales, new species, 18s SSU rRNA, West Java, phylogenetic tree, phylogeny, arbuscular mycorrhizal fungi, AMF     

Water Relations of Red Clover Trifolium pratense L. as Affected by VA Mycorrhizal Infection and Phosphorus Supply Before and During Drought

Red clover Trifolium pratense L. plants were grown in a factorialdesign with four levels of added P and with and without a mycorrhizalinoculum, to test the separate effects of P nutrition and infectionon plant water relations. Under well-watered conditions, onlyuninfected plants on very low P soil showed reduced stomatalconductance and these had the lowest leaf P concentrations.During droughting, only plants with very high leaf P concentrationsmaintained high conductance. There was no evidence of increasedwater uptake by mycorrhizal plants. This and other evidencesuggests that mycorrhizal effects on water relations are secondaryconsequences of changes in P nutrition which are, in any case,inconsistent. Key words: Trifolium pratense, VAM, water relations, concentration, drought     

The Effects of Simazine, Applied for Weed Control, on the Mycorrhizal Development of Pinus Seedlings

The herbicide Simazine is widely used in forestry nurseries.Its effect on the incidence of ectomycorrhizae on pine seedlingroot systems was investigated. Under field (nursery) conditions,at routine rates of application, Simazine does not inhibit mycorrhizaldevelopment in Pinus sylvestris and P. nigra, and it may, undersome conditions, actually enhance mycorrhizal formation. Sucha stimulatory effect was also obtained with pot-grown seedlingstreated with the herbicide. It is suggested that soil type andclimatic factors might be involved in determining the responseto Simazine. The mode of stimulation of mycorrhizal developmentby this herbicide is not understood, but it is not via suppressionof weed growth. Pinus sylvestris, Pinus nigra, pine seedlings, ectomycorrhizae, Simazine     

Mycorrhizal influence on hydraulic and hormonal factors implicated in the control of stomatal conductance during drought

During drying, mycorrhizal plants often maintain higher stomatalconductance (g_s) than similarly-sized and -nourished non-mycorrhizalplants, but the mechanism of mycorrhizal influence remains unclear.Several hydraulic and non-hydraulic factors previously implicatedin control of stomatal behavior during drought were measured,to learn which are affected when roots of cowpea (Vigna unguiculata[L.] Walp. cv. White Acre) are extensively colonized by Glomusintraradices Schenck and Smith isolate UT143. At low soil watercontents (), mycorrhizal plants maintained higher g_s, transpirationand shoot water potential () than non-mycorrhizal plants. Thesehigher foliar water status characters were associated with lowerxylemsap abscisic acid concentrations ([ABA]) and lower ABAfluxes to leaves in mycorrhizal plants at low soil . Stomatalconductance was most closely correlated with xylem-sap [ABA],ABA flux to leaves and shoot . Stomatal conductance was notcorrelated with xylemsap concentrations of calcium or zeatinriboside equivalents, or with xylem-sap pH, nor were these xylem-sapconstituents affected by mycorrhizal symbiosis. Stomata of mycorrhizaland non-mycorhizal leaves showed similar sensitivities to ABA,whether leaves were intact or detached. It is concluded thatmycorrhizal fungi probably increased the capability of rootsystems to scavenge water in drier soil, resulting in less strainto foliage and hence higher g_s, and shoot at particular soil. Key words: Abscisic acid, cytokinins, Glomus intraradices     

Mycorrhizal Response of Two Tomato Genotypes Relates to their Ability to Acquire and Utilize Phosphorus

The purpose of this study was to determine how a plant's responseto colonization by mycorrhizal fungi relates to its abilityto acquire and utilize phosphorus for growth and reproduction.Two tomato genotypes previously found to be either responsive(‘LA1709’) or unresponsive (‘large cherry’)to mycorrhizal colonization during early vegetative growth wereexamined in detail. Plants were grown at four levels of addedphosphate or with mycorrhizal inoculum. Vegetative and reproductivegrowth, phosphorus uptake and root length density were measuredduring the course of plant development. Mycorrhizal symbiosissignificantly increased above-ground dry mass, root length,phosphorus content and yield under low phosphorus conditionsin ‘LA1709’, while it had less effect on these characteristicsin ‘large cherry’. When uninfected, however, ‘LA1709’grew and reproduced poorly unless high amounts of phosphoruswere added to the soil, while ‘large cherry’ grewwell under very low phosphorus conditions. This was because‘large cherry’ had significantly higher root lengthdensities than ‘LA1709’, enabling plants from thisgenotype to explore more soil volume and acquire greater amountsof phosphorus when grown without mycorrhizal fungi in low phosphorussoil. ‘Large cherry’ also had higher phosphorususe efficiency and allocated a greater proportion of phosphorusto reproduction when uninfected than ‘LA1709’. Itappears traits that affect a plant's ability to acquire andutilize phosphorus efficiently for growth and reproduction canalso affect its response to mycorrhizal colonization in tomato.Copyright1998 Annals of Botany Company. Tomato,Lycopersicon esculentum,mycorrhiza,Glomus etunicatum,phosphorus, reproduction, lifespan.     

Scutellospora spinosissimasp. nov., A Newly Described Glomalean Fungus from Acidic, Low Nutrient Plant Communities in Venezuela

A newly discovered Glomalean fungus,Scutellospora spinosissima,collectedfrom acidic tropical soils with very low nutrient status and,in places, predominantly cyperaceous vegetation, is describedand illustrated.Copyright 1998 Annals of Botany Company. Acidic soils, AMF, arbuscular–mycorrhizal fungi, Gigasporaceae, tropical soils, Cyperaceae mycorrhiza.     

A Possible Role for the Thick-walled Epidermal Cells in the Mycorrhizal Hair Roots of Lysinema ciliatum R. Br. and other Epacridaceae

Hair roots ofLysinema ciliatum R. Br. and some other Epacridaceaehave thick-walled cells in the epidermis. These are preferentiallycolonized with mycorrhizal fungi. Individual epidermal cellscontaining hyphal coils separate at the middle lamella and arereleased into the soil. Other colonized cells remain attachedto the roots, usually in groups, surrounded by bare exodermis,where epidermal cells have either collapsed or been sloughedoff. It is suggested that these colonized thick walled cellscan serve to prolong the mycorrhizal association and to infectnew hair roots as these emerge. The thick wall has a very specializedstructure and composition and could have a number of roles,either acting as a substrate or protective coat or in controllingwater status and uptake. Young hair-roots are surrounded bya mucilage sheath that is similar in appearance to that in Ericaceaeand apparently produced by root cap cells, not the epidermis. Lysinema ciliatum R. Br.; ericoid mycorrhiza; hair root; root cap; cortex; epidermis; exodermis     

Influence of mycorrhizae and Rhizobium on cytokinin content in drought-stressed alfalfa

The objective of this research was to study the growth responseto drought of arbuscular mycorrhizal and non-mycorrhizal alfalfa(Medicago sativacv. Aragn) in relation to leaf cytokinin levels.In the experiment, four treatments were used: (a) plants inoculatedwith Clomus fasciculatum (Taxter sensu Gerd.) Gerdemann andTrappe and Rhizobium meliloti 102 F51 strain, (MR); (b) plantsinoculated with only Rhizobium (RP); (c) plants inoculated withonly mycorrhizae (MN); and (d) plants non-inoculated (NP). Non-mycorrhizalplants were supplemented with phosphorus and nonnodulated oneswith nitrogen to achieve similar size in all treatments. Plantswere subjected to drought by withholding irrigation in a cyclicway. The effects of drought on growth, number of stems, degreeof senescence, and leaf cytokinin levels were measured. Results of identification of cytokinins showed that dihydrozeatinriboside (dHZR) and ortno-topolin riboside (oTR) were predominantin alfalfa leaves. Nonsymbiotic plants (NP) showed higher totalcytokinin concentrations (dHZR and oTR). Under drought, NP plantsshowed the largest percentage drop in cytokinins and lower numberof stems as well as increased degree of senescent leaf tissuerelative to control values. By contrast, stressed symbioticplants (RP, MN and MR) showed higher green leaf weight thannonsymbiotic ones (NP) due to delay of leaf senescence and maintenance(RP) or increase (MN, MR) of stem leaf cytokinin levels duringdrought. The relationships between growth and the different cytokininsare discussed, suggesting an important role of mycorrhizal symbiosisin maintaining cytokinin levels under drought. Key words: Alfalfa, arbuscular mycorrhizae, cytokinins, drought, leaf senescence     

An Examination of some Symbiotic Systems for Fixation of Nitrogen

By the use of ¹⁵N the occurrence of fixation of elemental nitrogenhas been demonstrated in the lichens Collema granosum and Leptogiumlichenoides (both of which contain Nostoc as a symbiont), andalso in the liverwort Blasia pusilla (which has Nostoc-containingcavities in the thallus). The circumstances indicate that thefixation in these instances should be attributed to the Nostoc. No evidence of fixation was obtained in similar isotopic testson the mycorrhizal roots of intact plants of Calluna vulgarisand of Pinus sylvestris, although these, more especially inthe case of Calluna, have been held by some previous authorsto be nitrogen-fixing.     

Nitrogen and Phosphorus Nutrition in Mycorrhizal Epacridaceae of South-west Australia

Xylem transport of nitrogen and phosphorus was examined in maturemycorrhizal plants of 41 species in 15 genera of Epacridaceaein native habitat in south-west Australia. Glutamine was theprincipal nitrogenous solute of xylem of all but four species.In the latter species, arginine or asparagine predominated.Nitrate and ammonium comprised minor fractions of xylem (tracheal)sap N, except in two species in which nitrate contributed overhalf of the N. Ratios of total-N:phosphate-P in xylem sap variedwidely (mean 67±18, range 0.2–495) between speciesand habitats. Plants ofCroninia kingiana (syn.Leucopogon kingeanus)from the one habitat showed higher levels of N and P in xylemearly than late in the mycorrhizal season, but there was noconsistent evidence of higher N and P levels from upper thandeeper parts of their root systems. Study of juvenile populationsof four species of epacrids indicated that substantial fractionsof the yearly increment of N, P and dry matter was accumulatedduring the three summer months when infected mycorrhizal hairroots were absent. Glasshouse culture of mycorrhizal plantsof Epacridaceae in habitat soil enriched with decomposed andleached double (¹³C,¹⁵N)-labelled dry matter of wheat showedsubstantial labelling of shoots with¹⁵N but not with¹³C. Plantsfed similarly treated¹⁵N-labelled root residues of maize acquired¹⁵Nbut failed to generate ¹³C values different from those of controlplants. Possible avenues of mycorrhizal and non-mycorrhizalnutrition of Epacridaceae are discussed. amino acids; mycorrhizal nutrition; xylem transport; south-west Australia; Epacridaceae; nitrogen; phosphorus     

Element Distribution in Mycelium of Pisolithus arrhizus Treated with Cadmium Dust

Mycelium of Pisolithus arrhizus cultured on agar media containingcadmium dust (collected from industrial electrofilters) andon media without the dust was analysed by electron spectroscopicimaging (ESI) and electron energy loss spectroscopy (EELS) connectedwith the transmission electron microscope. Complementary investigationsof polysaccharide (PATAg) and cysteine rich protein localizationwere carried out. The analyses revealed abundant depositionof glycogen in the form of net-like material in the cytoplasmof the dust-supplemented mycelium, accompanied by increasedlevels of Ca. Heavy metals like Cd, Cu and Fe accumulated mainlyin electron opaque granules and in the outer pigmented layerof the cell wall, both characterized by the presence of polysaccharidesand cysteine-rich proteins.Copyright 1994, 1999 Academic Press Pisolithus arrhizus (Pers.) Rausch., mycorrhizal fungi, heavy metals, cytochemistry, element localization     

Symbiosis and the Regulation of Communities

Ecologists have long been interested in factors that controlthe structure of communities and the relative importance oftop-down effects of predators versus bottom-up effects of resources.There is a growing body of evidence that microbial symbiosesare important determinants of plant community structure andindirectly affect herbivore and predator trophic levels. Studieswith mycorrhizal fungi, N-fixing bacteria and endophytes ofgrasses have demonstrated that they can affect competition,coexistence, soil nutrient dynamics and plant-herbivore interactions.Long-term field experiments with one grass/endophyte interactionsuggest that grassland community structure is determined bythe fungus. While total plant productivity of experimental plotswas similar, the composition of the vegetation was altered byendophyte symbiosis. The host grass tall fescue (Festuca arundinacea)dominated plots when infected while other grasses greatly increasedin uninfected plots. Indirect evidence suggests that changesin prairie vole (Microtus ochrogaster) grazing patterns andreproductive physiology may be in part responsible for vegetationalchanges. These results provide evidence that, in addition tobottom-up and top-down forces, microbial symbionts of plantsare important determinants of community structure.     

Four years in the Caucasus – observations on the ecology of nivicolous myxomycetes

Abundance and habitat requirements of nivicolous myxomycetes were surveyed over 4 yr at the northwestern Greater Caucasus ridge (Russia). An elevational transect spanning 3.66 km from 1 700 to 3 000 m a.s.l. was established at the summit Malaya Khatipara situated within the Teberda State Biosphere reserve. Between 2010 and 2013 1177 fructifications of nivicolous myxomycetes were recorded, with 700 of these determined to 44 species, varieties, and forms. Virtually all fructifications developed near or at the margin of a snow field. Abundance of myxomycete fructifications varied extremely between years, ranging from near zero to hundreds of colonies. At sites with known myxomycete occurrences 16 data loggers were installed in the years 2011 and 2012, measuring relative humidity and temperature at the soil surface. Together with weather data recorded on the nearby Klukhor pass and experiments with myxamoebae cultured on agar, these data explain the observed extreme fluctuations in myxomycete abundance. A sudden frost (one night below −10 °C) occurring before the first lasting snow in Nov. 2011 was most likely the reason for the nearly complete absence of myxomycete fruiting in spring 2012. Culture experiments showed that amoebae survived a slow decrease in temperature, as occurs under a sheltering snow cover, but are killed by sudden freezing. Extreme temperature changes recorded at the margin of snow fields explain why nivicolous myxomycetes must fruit before snow melt is complete, and the different transmittance of snow packs for light of different wave lengths may be crucial for triggering the formation of fruiting bodies. The high abundance of fructifications in nivicolous myxomycetes suggests them to be important predators of microbial communities under snow.     

The Structure and Fungal Associates of Mycorrhizas in Leucopogon parviflorus (Andr.) Lindl.

Mycorrhizal root systems ofLeucopogon parviflorus (Andr.) Lindl.were collected from wild populations at three sites on the coastof New South Wales, Australia and examined by light and electronmicroscopy. The structure of the hair roots is typical of thefamily, there being an epidermal layer in which ericoid mycorrhizasare formed, two cortical layers (an exodermis and endodermis)and a very small stele. The colour, size and coil structureof the fungal symbionts indicate that there were at least twodifferent fungi that consistently formed ericoid mycorrhizalstructures at these sites. Transmission electron microscopyof the endophytes showed only ascomycete fungi. Plants fromtwo of the populations were used for fungal isolations. Fungiwere isolated by incubating surface sterilized hair-root piecesin a solution of bovine serum albumin with penicillin and streptomycin.Twenty-one different culture types were obtained, four of whichwere common to both sites. Two of the common culture types weredark, sterile, slow-growing cultures similar to the ericoidendophyteHymenoscyphus ericae(Read) Korf & Kernan. Leucopogon parviflorus ; bearded heath; Epacridaceae; Ericaceae; mycorrhiza; ultrastructure; endophytes; callose     

ON A NEW STRUCTURALLY PRESERVED ARBORESCENT LYCOPSID FRUCTIFICATION FROM THE LOWER PENNSYLVANIAN OF NORTH AMERICA

Bisporangiate lycopsid fructifications are described from petrifaction material of Pottsville (lower Pennsylvanian) age collected in eastern Kentucky. The largest specimen of Lepidostrobus schopfii sp. n. is 8.0 cm long and approximately 1.3 cm in diam; it is not complete at either apex or base. Basal megasporangia, each containing a variable number (12-29) of megaspores, and apical microsporangia are adaxially positioned on pedicels bearing reduced lateral laminae. Features of the cone axis and pattern of vascularization are described. Of particular interest is the occurrence of well-preserved endosporic megagametophytes showing archegonia and rhizoids. The new species is compared with other structurally preserved bisporangiate lycopsid fructifications of equivalent age.