Occurrence and richness of arbuscular mycorrizal fungi in vineyards with grapevine decline and dieback symptoms

ABSTRACT: This research identified arbuscular mycorrhizal fungi (AMF) in rhizosphere soil of grapevines with Grapevine Death and Decline symptoms (GDD) or asymptomatic healthy (H) plants, and characterized the relationship of AMF communities with soil chemical attributes. The AMF spore number ranged from 287 to 432 spores 50 cm-3 in soil with GDD plants, and from 357 to 464 spores 50 cm-3 in H plants, with no differences among vineyards or between GDD and H plants within each vineyard. We detected 42 species and 17 genera, and most taxa belonged to Acaulosporaceae or Glomeraceae. Claroideoglomus etunicatum, Funneliformis mosseae, and Archaeospora trappei were the most frequent species in all vineyards. Soil chemical attributes were not determinant for the occurrence of most fungal species; although, Entrophospora infrequens, Diversispora sp1 and Diversispora sp2 were associated with a vineyard having high soil copper. Vineyards harbor highly diverse AMF communities, which are determined by location.

Mapping Recombination Landscape and Basidial Spore Number in the Button Mushroom Agaricus bisporus

The button mushroom Agaricus bisporus is represented mainly by two varieties, a secondarily homothallic variety with predominantly two heterokaryotic spores per basidia and a heterothallic variety with predominantly four homokaryotic spored basidium. Both varieties also differ in their recombination landscape with the former showing crossovers (CO) predominantly at chromosome ends whereas the latter has a more evenly distribution of CO over the chromosomes. The two varieties are compatible, and this has been used to study segregation of the basidial spore number (BSN) and the genomic positions of recombination, i.e., the CO landscape, in order to find the underlying genetic determinants. Knowledge on genes controlling CO positions might facilitate either the conservation of favorable allele combinations or the disruption of unwanted allele combinations to reduce linkage drag. For BSN, in total seven QTL were found with the major QTL on chromosome 1 explaining ca. 55% of the phenotypic variation. It appeared, however, difficult to map the recombination landscape. This phenotype can only be assessed in the meiotic offspring of an intervarietal hybrid which is a laborious and difficult task. Nevertheless, this was done, and we were able to map three QTLs for this trait, two on chromosome 1 and one on chromosome 2 not overlapping with the QTL for BSN. The hurdles encountered are discussed and a new strategy is proposed that can solves these. We propose to use two genetically unrelated mapping populations both offspring of a cross between a var. bisporus and a var. burnettii homokaryon and thus segregating both for CO and BSN. Homokaryotic offspring of both populations can be intercrossed without limitation of mating incompatibility and marker homozygosity and the hybrid mushrooms directly used to map BSN. Homokaryotic offspring of these hybrid mushrooms can be genotypes to assess CO positions using next generation sequencing technologies that will solve marker problems encountered, especially for genotyping chromosome ends. This new approach can be a useful strategy for a more efficient breeding strategy for mushrooms in general.

Isolation and identification of indigenous Arbuscular Mycorrhizal Fungi (AMF) of forest clove rhizosphere from Maluku, Indonesia

Mahulette AS, Alfian A, Kilkoda KA, Lawalata IJ, Marasabessy DA, Tanasale VL, Makaruku MH. 2021. Isolation and identification of indigenous Arbuscular Mycorrhizal Fungi (AMF) of forest clove rhizosphere from Maluku, Indonesia. Biodiversitas 22: 3613-3619. Forest clove is classified as wild-type and endemic to the Maluku (Moluccas) Islands, Indonesia. The different condition of growing areas causes various types of Arbuscular Mycorrhizal Fungi (AMF) associated with forest clove. The study aimed to identify and obtain indigenous AMF inoculums from the forest clove rhizosphere from two distribution areas in Maluku. The results of AMF identification found two types of spores from the genus Glomus in the rhizosphere of forest cloves from Ambon Island with a spore density of 35/50 g of soil. In comparison, three spores were found in Seram Island, two from the genus Scutellospora and one from the Acaulospora. With an overall spore density of 5/50 g of soil. After culture trapping, there was a change in type and an increase in spore density in soil samples from the rhizosphere of the two forest clove distribution areas. Soil samples from Ambon after trapping culture obtained two new types of spores from the genus Acaulospora with a total spore number of 57/50 g soil while in soil samples from Seram found three new types of spores from the genus Glomus with a total spore count of 104/50 g of soil.

Pengendalian Hama Kelapa Larva Kumbang Badak (Oryctes rhinoceros, L.) Instar III Dengan Metarhizium anisopliae, Metch. yang Ditumbuhkan Pada Berbagai Macam Dedak Gandum

The research objectives were to observe the growth and spore production of Metarhizium anisopliae grown at wheat-pollard and wheat-brand and to test the M. anisopliae pathogenicity on instar III rhinoceros beetle larva of coconut pest (Oryctes rhinoceros, L.). The research were executed in 3 phases : (1) Regeneration phase of M. anisopliae, the experiment was arranged in single factor CRD with 3 kinds of wheat and 3 replications. The influences of the treatments on biomass, spore number and spore viability were observed then; (2) lethal dosage (LD50) determination phase; and (3) phatogenicity test of M. anisopliae, the experiment was arranged in 3 x 3 factorial CRD, where the first factor was the kinds of wheat (i.e. Pollard, Brand and Pollard Brand) and the second factor was the dosage of biopesticide (i.e. 0,5 LD50 LD50 and 2 LD50). The phatogenicity testing was conducted to evaluate the effects on toxicity, mortality speed, and effication percentage. The result indicated that the wheat-brand was the better medium for M. Anisopliae than the pollard and the pollard-brand ones. The average spore number (1021,67 x 1014 spora/ml), biomass (95,94 g) and the viability (127,00 x 108 spora/ml) were significantly higher than the others. The lethal dosage obtained was 6,70g to gave the mortality percentage (73,33 %) and the effication percentage (73,33 %) significantly higher than the other treatments.

Use Powder of Earthworm to Increase Growth and Spores Numbers of Two Species of Fungi (Aspergillus niger and Pencillium expansum)

The present study prepars various concentrations of dried earthworm powder from ( 200 – 250 – 300 – 350 – 400 – 450 - 500) mg / ml used to increase the growth of Aspergillus nigerandPencillium expansum and the spore number , the result show the growth of A.niger and the spore number more than P. expansumin all concentrations along the period of experiment and analysis show differences significant ( p˂ 0.05 ) among the different concentrations of earthworm powder.

Ultrasensitive Response of DevelopingMyxococcus xanthusto the Addition of Nutrient Medium Correlates with the Level of MrpC

ABSTRACTUpon depletion of nutrients,Myxococcus xanthusforms mounds on a solid surface. The differentiation of rod-shaped cells into stress-resistant spores within mounds creates mature fruiting bodies. The developmental process can be perturbed by the addition of nutrient medium before the critical period of commitment to spore formation. The response was investigated by adding a 2-fold dilution series of nutrient medium to starving cells. An ultrasensitive response was observed, as indicated by a steep increase in the spore number after the addition of 12.5% versus 25% nutrient medium. The level of MrpC, which is a key transcription factor in the gene regulatory network, correlated with the spore number after nutrient medium addition. The MrpC level decreased markedly by 3 h after adding nutrient medium but recovered more after the addition of 12.5% than after 25% nutrient medium addition. The difference in MrpC levels was greatest midway during the period of commitment to sporulation, and mound formation was restored after 12.5% nutrient medium addition but not after adding 25% nutrient medium. Although the number of spores formed after 12.5% nutrient medium addition was almost normal, the transcript levels of “late” genes in the regulatory network failed to rise normally during the commitment period. However, at later times, expression from a reporter gene fused to a late promoter was higher after adding 12.5% than after adding 25% nutrient medium, consistent with the spore numbers. The results suggest that a threshold level of MrpC must be achieved in order for mounds to persist and for cells within to differentiate into spores.IMPORTANCEMany signaling and gene regulatory networks convert graded stimuli into all-or-none switch-like responses. Such ultrasensitivity can produce bistability in cell populations, leading to different cell fates and enhancing survival. We discovered an ultrasensitive response ofM. xanthusto nutrient medium addition during development. A small change in nutrient medium concentration caused a profound change in the developmental process. The level of the transcription factor MrpC correlated with multicellular mound formation and differentiation into spores. A threshold level of MrpC is proposed to be necessary to initiate mound formation and create a positive feedback loop that may explain the ultrasensitive response. Understanding how this biological switch operates will provide a paradigm for the broadly important topic of cellular behavior in microbial communities.

Aerobiological studies with special reference to airborne basidiospores of Ganoderma Karst. at Pune, Maharashtra, India.

The basidiospores of Ganoderma were trapped in abundance during the aerobiological studies at Pune, during the year 2012. The sampling was conducted during the rainy months from 18th June to 10th September. Volumetric continuous Tilak Air sampler was used for sampling. Maximum number of spores was observed in the month of August (25760/m3 of air), followed by September (16548/m3 of air). The total spore number was 47460/m3 of air. The highest spore catch (3472/m3 of air) was recorded on 1st September. The relationship between the airborne concentration of Ganoderma spore count and meteorological factors are discussed in the paper. This information could be important for the sensitive individuals as Ganoderma spores are known to be allergic.

Identification Arbuscular Mycorrhiza Fungi (Amf) Legume Plant On Microscopik Consevation Tillage Cropping Season To 29

Arbuscular Mycorrhiza Fungi (AMF) is a form of mutualistic symbiosis between fungi and plant roots. FMA existence in soil is influenced by several agricultural activities such as tilling and fertilizing. The purpose of this study (1) Obtaining data on the number of FMA in each treatment and conservation tillage . (2) Knowing the types FMA in each treatment and conservation tillage planting season to 29. The study was a randomized block design (RAK) , arranged as factorial (2x3), with three replications. The first factor is the intensive tillage (T1), no-tillage (Zero Tillage) (T2) Minimum tillage (Minimum Tillage), and Land Intensive (Full Tillage) (T3); and the second factor is without fertilizer N (N0) and fertilizer application of 100 kg N ha-1 (N1), and Fertilizer of 200 kg N ha-1 (N2). The method used in this study is a description method by observation techniques, the method used for the isolation of spores of strain engineering castings and followed by centrifugation. Observations were made using a microscope binoculars and digital camera, the spores are observed then grouped based on their morphological characters, identification of mycorrhizal done using a guide book "Working with mycorrhizas in Forestry and Agriculture" and reaffirmed by using INVAM website. Based on results of research and discussion can be concluded. The number of spores in the soil no tillage without nitrogen doses is 1,333 at doses 100 kg N spore number is 1,253, and as high as 1,648 spores at dose of 200 kg N. The number of spores on minimum tillage 200 kg of nitrogen dose was 271, on 100 kg dose was 520 spores, and without nitrogen fertilizer contained spores 780. at most that intensive tillage highest number of spores on spore number without nitrogen fertilizer is 4.078, and the number of spores 1,124 at the dose of 100 kg nitrogen, 941 the number of spores nitrogen dose of 200 kg. There are four genera of spores discovered in minimum tillage with various doses Nitrogen fertilizer is the genus Glomus, Acaulospora, Gigaspora, and Scutelospora. Genus most obtained is Glomus and Acaulospora. Type spores were found from 4 genera dominated by genus Glomus with a variety of different types.

Penggunaan spora cendawan mikoriza arbuskula sebagai inokulum untuk meningkatkan pertumbuhan dan serapan hara bibit kelapa sawit Application of arbuscular mycorrhizal fungi spore as inoculant to increase growth and nutrient uptake of oil palm seedling

SummaryA green house experiment was conducted tostudy the effect of spore number and species ofAM fungi as inoculant of oil palm. Two species ofAM fungi was evaluated in this study namelyAcaulospora tuberculata and Gigaspora margaritaand three spore number were tested i. e 200, 350,and 500 spores. There two fungi have thepotential as AM fungi inoculant for oil palm. Thesoil used was acid soil from Cikopomayak, WestJava while the oil palm seedling was from OilPalm Research Institute, Medan. A polybag sized20 x 40 cm was used. Spores as type of inoculantaffect the oil palm growth in longer time. Thebest growth of the seedling in term of height,fresh, and dry weight was obtained byinoculation at 500 spores of A. tuberculata andG. margarita. However, at 500 spores perpolybag, growth and N, P, and K uptake ofseedlings inoculated with A. tuberculata andG. margarita were not significantly differentexcept for seedling and root fresh weight. Oilpalm seedling inoculated with A. tuberculata at500 spores per seedling resulted higher root andseedling fresh weight compared with thoseinoculated with G. margarita. The different effectof seedling on A. tuberculata and G. margaritainoculation at 200 and 350 spores per seedlingwere only observed in plant height, fresh and dryweight of seedlings. The plant height, fresh, anddry weight of seedlings inoculated withA. tuberculata at 200 and 350 spores per seedlingwere higher compared with those inoculatedwith G. margarita. In addition inoculation withA. tuberculata at 200 spores per seedling resultedhigher N and K uptake of seedling compared withthose inoculated with G. margarita.RingkasanSuatu penelitian rumah kaca telah dilakukanuntuk mempelajari pengaruh jumlah spora danspesies cendawan mikoriza arbuskula (CMA)sebagai inokulum pada bibit kelapa sawit. Duaspesies CMA yang diuji ialah Acaulosporatuberculata dan Gigaspora margarita sedangkanjumlah spora yang diuji ada tiga tingkat yaitu200, 350, dan 500 spora. Bibit kelapa sawitberumur dua bulan ditanam di polibag berukuran20 x 40 cm yang berisi tanah yang bereaksimasam berasal dari Cikopomayak. Hasil yangdiperoleh menunjukkan bahwa spora sebaganokulum bibit kelapa sawit dapat mempengaruhipertumbuhan kelapa sawit namun diperlukanwaktu yang lebih lama untuk mendapatkanrespons inokulasi. Pertumbuhan tertinggi padapeubah tinggi bibit, bobot basah, dan bobotkering diperoleh pada inokulasi sebanyak 500spora per polibag baik untuk A. tuberculatamaupun G. margarita. Namun, pada inokulasisebanyak 500 spora per polibag, pertumbuhandan serapan N, P, dan K bibit yang diinokulasiA. tuberculata dan G. margarita tidak berbedanyata kecuali pada peubah bobot basah akar danbobot basah bibit. Bobot basah akar dan bobotbasah bibit kelapa sawit yang diinokulasiA. tuberculata sebanyak 500 spora, lebih tinggidibandingkan dengan bibit yang diinokulasidengan G. margarita pada jumlah spora yangsama. Pengaruh spesies hanya dapat ditunjukkanpada inokulasi 200 dan 350 spora khususnya padapeubah tinggi bibit, bobot basah, dan bobotkering bibit. Tinggi bibit, bobot basah dan bobotkering bibit yang diinokulasi A. tuberculata padajumlah spora 200 dan 350 per polibag lebih tinggidibandingkan dengan yang diinokulasiG. margarita. Tampak bahwa inokulasiA. tuberculata dengan 200 spora per polibagmenghasilkan serapan N dan K lebih tinggidibandingkan dengan yang diinokulasiG. margarita pada jumlah spora yang sama.

Penggunaan spora cendawan mikoriza arbuskula sebagai inokulum untuk meningkatkan pertumbuhan dan serapan hara bibit kelapa sawit Application of arbuscular mycorrhizal fungi spore as inoculant to increase growth and nutrient uptake of oil palm seedling

SummaryA green house experiment was conducted tostudy the effect of spore number and species ofAM fungi as inoculant of oil palm. Two species ofAM fungi was evaluated in this study namelyAcaulospora tuberculata and Gigaspora margaritaand three spore number were tested i. e 200, 350,and 500 spores. There two fungi have thepotential as AM fungi inoculant for oil palm. Thesoil used was acid soil from Cikopomayak, WestJava while the oil palm seedling was from OilPalm Research Institute, Medan. A polybag sized20 x 40 cm was used. Spores as type of inoculantaffect the oil palm growth in longer time. Thebest growth of the seedling in term of height,fresh, and dry weight was obtained byinoculation at 500 spores of A. tuberculata andG. margarita. However, at 500 spores perpolybag, growth and N, P, and K uptake ofseedlings inoculated with A. tuberculata andG. margarita were not significantly differentexcept for seedling and root fresh weight. Oilpalm seedling inoculated with A. tuberculata at500 spores per seedling resulted higher root andseedling fresh weight compared with thoseinoculated with G. margarita. The different effectof seedling on A. tuberculata and G. margaritainoculation at 200 and 350 spores per seedlingwere only observed in plant height, fresh and dryweight of seedlings. The plant height, fresh, anddry weight of seedlings inoculated withA. tuberculata at 200 and 350 spores per seedlingwere higher compared with those inoculatedwith G. margarita. In addition inoculation withA. tuberculata at 200 spores per seedling resultedhigher N and K uptake of seedling compared withthose inoculated with G. margarita.RingkasanSuatu penelitian rumah kaca telah dilakukanuntuk mempelajari pengaruh jumlah spora danspesies cendawan mikoriza arbuskula (CMA)sebagai inokulum pada bibit kelapa sawit. Duaspesies CMA yang diuji ialah Acaulosporatuberculata dan Gigaspora margarita sedangkanjumlah spora yang diuji ada tiga tingkat yaitu200, 350, dan 500 spora. Bibit kelapa sawitberumur dua bulan ditanam di polibag berukuran20 x 40 cm yang berisi tanah yang bereaksimasam berasal dari Cikopomayak. Hasil yangdiperoleh menunjukkan bahwa spora sebaganokulum bibit kelapa sawit dapat mempengaruhipertumbuhan kelapa sawit namun diperlukanwaktu yang lebih lama untuk mendapatkanrespons inokulasi. Pertumbuhan tertinggi padapeubah tinggi bibit, bobot basah, dan bobotkering diperoleh pada inokulasi sebanyak 500spora per polibag baik untuk A. tuberculatamaupun G. margarita. Namun, pada inokulasisebanyak 500 spora per polibag, pertumbuhandan serapan N, P, dan K bibit yang diinokulasiA. tuberculata dan G. margarita tidak berbedanyata kecuali pada peubah bobot basah akar danbobot basah bibit. Bobot basah akar dan bobotbasah bibit kelapa sawit yang diinokulasiA. tuberculata sebanyak 500 spora, lebih tinggidibandingkan dengan bibit yang diinokulasidengan G. margarita pada jumlah spora yangsama. Pengaruh spesies hanya dapat ditunjukkanpada inokulasi 200 dan 350 spora khususnya padapeubah tinggi bibit, bobot basah, dan bobotkering bibit. Tinggi bibit, bobot basah dan bobotkering bibit yang diinokulasi A. tuberculata padajumlah spora 200 dan 350 per polibag lebih tinggidibandingkan dengan yang diinokulasiG. margarita. Tampak bahwa inokulasiA. tuberculata dengan 200 spora per polibagmenghasilkan serapan N dan K lebih tinggidibandingkan dengan yang diinokulasiG. margarita pada jumlah spora yang sama.