Abstract: The present disclosure is concerned with fertilizer compositions that provide controlled, delayed, and/or prolonged release of micronutrients in soil. In one embodiment, the inventive composition comprises a dry, powdered blend of a first target micronutrient source in chelated form and a second source of the same target micronutrient but provided in non-chelated form. In another embodiment, the inventive composition provides at least two sources of boron, with one source being a water-soluble form and the other source being a water-insoluble form. Regardless of the embodiment, the methods of using the fertilizer composition results in increased uptake of the particular micronutrient, nitrogen, and/or potassium compared to the prior art.

Abstract: An immobilized microbial agent for in situ restoration of contaminated sediments, composed of Hangjin clay 2 #-loaded conductive microorganisms, obtained by the following methods: 1) pretreating Hangjin clay 2 # to obtain particulate filler; 2) amplification culture of conductive microorganisms to a bacterial liquid to be inoculated, and adding the Hangjin clay 2 # pretreated in step 1 in a certain ratio, mixing under anaerobic conditions, removing the supernatant after standing, and obtaining the immobilized microbial agent; the conductive microorganisms are Geobacter sulfurreducens, Geobacter metallireducens and Shewanella. The invention also discloses a method for preparing the immobilized microbial agent and the application of in situ restoration of contaminated sediments.

Abstract: A microbial inoculant composition includes aquatic bacterial species. In some embodiments, the microbial inoculant composition includes at least one of an aquatic Pseudomonas spp. and a Clostridium spp.

Abstract: This disclosure relates generally to a method and a system for profiling of metagenome samples. Most state of-art techniques for metagenomic profiling use homology-based, curated database of identified marker sequences generated after complex and costly pre-processing. The disclosed method and system for profiling of metagenome samples are a non-homology based, a non-marker based and an alignment free strain level profiling tools for microbe profiling. The disclosure works with a several k-mer based indexing techniques for constructing a compact and comprehensive multi-level indexing, wherein the multi-level indexing includes a L1-Index and a L2-Index. The multi-level indexing is used for profiling metagenomics by abundance estimation, wherein the abundance estimation includes a relative abundance and an absolute abundance.

Abstract: The fertilizer composition is an algae-based, biodegradable and compostable fertilizer composition. The fertilizer composition includes an algal biomass, ground fenugreek seeds, and a binder for molding the fertilizer into pellets. In some embodiments, the fertilizer composition includes Enteromorpha prolifera (E. prolifera), ground and sieved fenugreek seeds and mastic gum. E. prolifera contains numerous nutrients, including vitamins, minerals and a variety of bioactive compounds. Fenugreek seeds have antimicrobial and antioxidant activities, and also have natural insect repellant properties. Mastic gum exhibits antimicrobial activity. Thus, the fertilizer composition provides a variety of nutrients to plants and also provides protection against pathogens. In the fertilizer composition, a ratio of the E. prolifera to the ground fenugreek seeds to the mastic gum by weight may be 6:3:1.

Abstract: The present invention provides a consortium of resistant microorganisms for biodegrading carbohydrates in the organic fraction of any source of solid waste. The genetic, metabolic and morphological structure of these resistant microorganisms works efficiently by biodegrading and mineralising solid biodegradable waste from municipal or harvest solid waste, reducing the production of gases and leachates. This compound enriches and increases the concentration of beneficial microorganisms, generating high-quality biological fertilisers suitable for use in agricultural production, in land recovery and conservation, under the parameters established in sustainable organic farming, which seeks to conserve, recover and use nature or the environment without generating the least negative impact.

Abstract: A combined microalgae and mycorrhizal fungi granular formulation includes a microalgae inoculant combined with a mycorrhizal fungi inoculant with demineralized water to maintain moisture and applied to carrier granules such as a natural clay-based or mineral-based material. The coated granules are dried and may be applied to agricultural areas in dried granular form.

Abstract: A microbial inoculant composition includes aquatic bacterial species. In some embodiments, the microbial inoculant composition includes at least one of an aquatic Pseudomonas spp. and a Clostridium spp.

Abstract: The present invention relates to methods for enhancing at least one growth parameter of a leguminous plant via co-inoculation of a leguminous plant with at least one rhizobial microorganism together with at least one actinobacterial microorganism. In further aspects, the present invention also relates to leguminous plants co-inoculated with at least one rhizobial microorganism together with at least one actinobacterial microorganism, as well as specific actinobacterial strains and inoculant compositions which are useful in accordance with the present invention.

Abstract: Disclosed herein are methods of increasing nitrogen fixation in a non-leguminous plant. The methods can comprise exposing the plant to a plurality of bacteria. Each member of the plurality comprises one or more genetic variations introduced into one or more genes or non-coding polynucleotides of the bacteria's nitrogen fixation or assimilation genetic regulatory network, such that the bacteria are capable of fixing atmospheric nitrogen in the presence of exogenous nitrogen. The bacteria are not intergeneric microorganisms. Additionally, the bacteria, in planta, produce 1% or more of the fixed nitrogen in the plant.

Abstract: The invention relates to agriculture, in particular to the processing of carbon-containing material to obtain a humus-containing product. A method for processing a carbon-containing material to obtain a humus-containing product by exposing it to a mixture of bacteria consisting of the strains Acinetobacter calcoaceticus VKPM (Russian National Collection of Industrial Microorganisms) V-4883, Pseudomonas denitrificans VKPM V-4884, Pseudomonas sp. “longa” VKPM V-4885 in an amount of (6-8)×109, (3-4)×109 and (2-3)×109 cells per 1 L of solution, respectively, in the presence of a phosphorus-containing additive, under aerobic conditions and while stirring, wherein the carbon-containing material is firstly ground to 0.5 mm in a wet mill while sapropel is simultaneously added in an amount of 5-10 wt %, and grinding is carried out for 30 minutes, the resulting mixture is sent into a mixer, into which aluminium industry waste in the form of dust from the cleaning of carbon electrodes with a particle size up to 0.

Abstract: A system and method of forming high nutritional fertilizer form swine feces in a reservoir underneath a swine facility. A pump system has a pump that conveys the feces to a remote location where the swine feces first goes through a filter and then into a treatment tank. The treatment tank has sugars or carbohydrates therein that combine with oxygen provided by a aerating device within the treatment tank and ammonia produced by the swine feces to create byproducts, including proteins having high nutritional value that is used for fertilizing plants and animals.

Abstract: An IBTL system having a low GHG footprint for converting biomass to liquid fuels in which a biomass feed is converted to liquids by direct liquefaction and the liquids are upgraded to produce premium fuels. Biomass residues from the direct liquefaction, and optionally additional biomass is pyrolyzed to produce structured biochar, hydrogen for the liquefaction and upgrading, and CO2 for conversion to algae, including blue green algae (cyanobacteria) in a photobioreactor (PBR). Produced algae and diazotrophic microorganisms are used to produce a biofertilizer that also contains structured biochar. The structured biochar acts as a nucleation agent for the algae in the PBR, as a absorption agent to absorb inorganics from the biomass feed to direct liquefaction or from the liquids produced thereby, and as a water retention agent in the biofertilizer.

Abstract: The present invention relates to a fertilizer comprising at least one microbe selected from the group consisting of Trichoderma viride (NRRL B-50520), Scopulariopsis brevicaulis (NRRL B-50521), Scopulariopsis brevicaulis (NRRL B-50522), and combinations thereof, and a substrate which is acted upon by the at least one microbe to release nitrogen. The invention also relates to a fertilizer comprising at least one microbe selected from a keratin degrading microorganism and a keratin substrate which is acted upon by the at least one microbe to release nitrogen. The invention further relates to a method for enhancing growth of plants with the fertilizer, and methods of making a fertilizer. The invention further relates to an isolated Trichoderma viride strain (NRRL B-50520) and two isolated Scopulariopsis brevicaulis strains (NRRL B-50521, NRRL B-50522).

Abstract: A recombinant microorganism is provided herein, in particular, a recombinant microorganism of the Azotobacteraceae family. The recombinant Azotobacter microorganism is capable of fixing atmospheric nitrogen continuously in the presence of oxygen and externally fixed nitrogen sources. The present invention further provides a process for production of the recombinant microorganism and a composition comprising the recombinant microorganism for use as biofertilizers and/or for use in the preparation of a fertilizer composition. The recombinant microorganism produced by this invention is an environmental friendly, highly beneficial microorganism.

Abstract: A composition of matter comprising: a combination of a phytate and a plurality of microorganisms comprising a Trichoderma virens fungus, a Bacillus amyloliquefaciens bacterium, and one or a plurality of mycorrhizae fungi that is placed in the vicinity of a plant root in a manner that allows the microorganisms in the composition of matter to colonize said plant root; and a method for increasing plant yield comprising: placing a combination of a phytate and a plurality of microorganisms comprising a Trichoderma virens fungus, a Bacillus amyloliquefaciens bacterium, and one or a plurality of mycorrhizae fungi in the vicinity of a plant root in a manner that allows the microorganisms in the composition of matter to colonize said plant root.

Abstract: The present invention relates to methods of reducing chemical fertilizer usage and greenhouse gas nitrous oxide emission and to methods of improving plant growth rate and seed productivity in agriculture through the application of a novel artificially manufactured formula containing a nitrogen-fixing bacterium that efficiently colonizes non-legume plants in aerial parts and the root system. The bacteria inocula and methods are particularly suitable for plants in the genera Jatropha, Sorghum, Gossypium, Elaeis, Ricinus, Oryza and Manihot.

Abstract: An IBTL system having a low GHG footprint for converting biomass to liquid fuels in which a biomass feed is converted to liquids by direct liquefaction and the liquids are upgraded to produce premium fuels. Biomass residues from the direct liquefaction, and optionally additional biomass is pyrolyzed to produce structured biochar, hydrogen for the liquefaction and upgrading, and CO2 for conversion to algae, including blue green algae (cyanobacteria) in a photobioreactor (PBR). Produced algae and diazotrophic microorganisms are used to produce a biofertilizer that also contains structured biochar. The structured biochar acts as a nucleation agent for the algae in the PBR, as a absorption agent to absorb inorganics from the biomass feed to direct liquefaction or from the liquids produced thereby, and as a water retention agent in the biofertilizer.

Abstract: Methods of increasing the amount of iron (Fe) and potassium (K) available in soil to plants residing in the soil. A composition comprising at least one microorganism capable of oxidizing Fe(II) bound in at least one phyllosilicate and releasing Fe and K from the at least one phyllosilicate to increase availability of Fe and K to plants in soil treated with the composition relative to plants in untreated soil. Compositions and microorganisms capable of oxidizing Fe(II) and K are disclosed.

Abstract: The invention provides an inoculant comprising Pseudomonas diazotrophicus and a carrier, which is useful for enhancing plant growth. The invention also provides a method of producing a plant which comprises applying an inoculant comprising Pseudomonas diazotrophicus and a carrier to plant or the growth medium of the plant.

Abstract: An organic soil amendment comprises a live aerobic culture of beneficial microorganisms, comprising beneficial bacteria and fungi, and additives and plant extracts. The present invention also provides a method for producing an organic soil amendment by extracting beneficial microorganism at least in part from a compost comprising green and brown plant waste, and is free of manure. The extracted beneficial microorganism is amplified, while additional beneficial microorganism maybe added. Plant extracts and other additives are added to the live beneficial microorganism culture. The present invention further provides a method for storing and transporting the organic soil amendment at a reduced temperature, such as refrigeration, freezing, or lyophilizing. In addition, the present invention provides a method for maintaining the viability of the organic soil amendment in a ready to use form.

Abstract: A soil-amendment product for preparing a damaged or degraded soil ecosystem to establish a self-sustaining floral/vegetative rhizosphere contains a mixture of composted organic biomass, fiber, charcoal, and small amounts of inoculants to promote the growth of beneficial microorganisms including mycorrhizal fungi and nitrogen-fixing bacteria. Embodiments also contain a water-holding agent such as a starch-based polymer that is effective to prevent water from flowing downhill or seeping away from the surface. Methods of application and other uses for the soil-amendment product are also described and claimed.

Abstract: Coating composition for applying to soybean seed from which roots and shoots are capable of growing, wherein the said coating composition comprises one or more organic materials having a melting point of ?50° Centigrade and one or more additives, methods of making such compositions and coated soybean seeds.

Abstract: Processes and compositions are disclosed that enhance crop production, increase plant defensive processes and/or decrease the level of plant pathogens. The compositions comprise a microbial composition and liquid fertilizer, preferably a liquid fertilizer that contains at least soluble nitrogen. The composition can be applied immediately to soil, foliage, seeds or seedlings. Alternatively, the composition may be activated by incubation for up to about seven days to form an activated composition. The incubation conditions influence the properties of the consortium after incubation. In one embodiment, the compositions comprise one or more lactic acid producing bacteria, one or more nitrogen fixing bacteria, and liquid fertilizer comprising soluble nitrogen. In preferred embodiments, there are multiple genera and/or species of lactic acid bacteria and nitrogen fixing bacteria. In a particularly preferred embodiment, the composition comprises HYTa in liquid fertilizer.

Abstract: The present invention relates to methods for producing microbial preparations for crop production and microbial preparations produced through such methods. The formulations contain microbial inoculants like Azospirillum spp. which are grown in a complex medium, lyophilized with powdered milk and further supplemented with minerals and vitamins, starch and inert substances such as talc, chalk and diatomaceous earth. The products manufactured by such methods have shelf-lives of more than 3 years. They are used to inoculate seeds, seedlings and planting materials among different agriculture and forestry species for enhancing root, root hair an shoot formation, enabling plants to efficiently use soil nutrients, supplying plants with nitrogen from the air, tolerating drought and protecting plants from root pathogenes.

Abstract: The present invention concerns the field of bacterial biocontrol. More precisely, the invention relates to the identification of chemicals which promote the growth of bacteria inactivating NAHL, such as gamma-caprolactone (GCL) and 4-heptanolide (HTN) and their use in soil additives.

Abstract: Embodiments relate to a composition and method for enhancing the growth of a plant using an inoculant composition comprising an effective quantity of an algal component in conjunction with a bacterial component.

Abstract: An ICBTL system having a low GHG footprint for converting coal or coal and biomass to liquid fuels in which a carbon-based feed is converted to liquids by direct liquefaction and optionally by indirect liquefaction and the liquids are upgraded to produce premium fuels. CO2 produced by the process is used to produce algal biomass and photosynthetic microorganisms in a photobioreactor. Optionally, lipids extracted from the some or all of the algal biomass is hydroprocessed to produce fuel components and biomass residues and the carbon-based feed our gasified to produce hydrogen and syngas for the direct and indirect liquefaction processes. Some or all of the algal biomass and photosynthetic microorganisms are used to produce a natural biofertilizer. CO2 may also be produced by a steam methane reformer for supplying CO2 to produce the algal biomass and photosynthetic microorganisms.

Abstract: The present invention relates to synthetic compounds that are active on plants, especially as legume nodulation factors, and also as plant growth stimulators, and to methods for preparing such compounds, which are of formula (I).

Abstract: An organic soil amendment comprises a live aerobic culture of beneficial microorganisms, comprising beneficial bacteria and fungi, and additives and plant extracts. The present invention also provides a method for producing an organic soil amendment by extracting beneficial microorganism at least in part from a compost comprising green and brown plant waste, and is free of manure. The extracted beneficial microorganism is amplified, while additional beneficial microorganism maybe added. Plant extracts and other additives are added to the live beneficial microorganism culture. The present invention further provides a method for storing and transporting the organic soil amendment at a reduced temperature, such as refrigeration, freezing, or lyophilizing. In addition, the present invention provides a method for maintaining the viability of the organic soil amendment in a ready to use form.

Abstract: The invention relates to a composition which is suitable for use as a soil conditioner or fertilizer. The soil health rejuvenator in the present invention is developed to provide soil conditioning which increases organic matter content of the soil and develop immunity in plants to fend off pest and disease. Moreover, the invention developed herein also reduces the harmful effect of chemicals accumulated in soil after prolonged exposure of chemical fertilizers in soil, improving soil physico-chemical properties. The invention provides the solution of sustainable agriculture by reducing the health hazardous caused by the extensive use of chemical amendments.

Abstract: Biofertilizers have been identified as an alternative to chemical fertilization to increase soil fertility and crop production using sustainable farming. Treatment is with at least a proprietary formulation of a nitrogen-fixing consortium and Azospirillum brasilense. The application of biofertilizers resulted in higher biomass compared to chemical fertilizer treatment. Chlorophyll and nitrogen levels in these grass plants are also likely to be improved.

Abstract: There is provided an inoculant composition for sucrose-rich crops improving production with reduced use of nitrogen fertilizer, which comprises Gluconacetobacter in suspension in a suitable culture medium, wherein the Gluconacetobacter being in an amount suitable for inoculation of the crops. There is also provided, a method for improving production of sucrose-rich crops with reduced use of nitrogen fertilizer, which comprises inoculating the sucrose-rich crop with the Gluconacetobacter inoculant composition.

Abstract: A soil amendment comprising compost and between about 5% and about 30% by weight of an agricultural liming material, wherein at least about 50% of said liming material has an average particle size of about 65 microns or less is described. Methods for using and manufacturing this soil amendment are also described.

Abstract: An applicator for applying a liquid carrier having live bacteria suspended therein, which are in a dormant state, to a target host comprising a pump having inlet and discharge sides, with the inlet side of the pump being in fluid communication with the liquid carrier. A first fluid conduit extends from the discharge side of the pump to an air induction nozzle which is in communication with a source of air under pressure. A flow control is imposed in the first conduit for adjusting the amount of liquid carrier passing therethrough. The pump and the air supply for the air induction nozzle are operatively connected to a power supply. The pump, when activated, causes the liquid carrier to be pumped to the air induction nozzle wherein the liquid carrier is mixed with air to create small droplets thereof for spraying onto the target host.

Abstract: A process for the treatment of liquid waste biomass, especially liquid manure compositions, wherein the biomass is converted to a fertilizer product. The process at least includes a nitrification step including a first biological conversion stage wherein ammonium is converted to nitrite using nitritifying bacteria in an aerated reactor, and a subsequent chemical oxidation stage wherein nitrite is converted to nitrate by heating the liquid waste biomass in an aerated reactor under acidic conditions. The process is particularly suitable for treating liquid manure, because of the high ammonium nitrogen contents thereof, which render the process essentially self-regulatory. In addition a process for the treatment of liquid waste biomass wherein organic matters are converted to energy sources, referred to as biogas and green cokes, and wherein nitrogen is fixed in a fertilizer product in the form of ammonium nitrate, is provided, the process including the present nitrification process.

Abstract: In mesic environments, erosion control measures usually employ the establishment of vegetative cover by vascular plants in order to hold the soil in place. The current art often includes the application of seeds, chemical fertilizers, tackifiers, and mulches to promote the growth of vascular plants. However, arid environments so not support dense vegetative cover, but are instead dominated by photosynthetic microorganisms, primarily cyanobacteria and lichens. The cyanobacteria not only hold the soil in place, but also are the primary source of fixed nitrogen in arid environments. Disclosed herein, is a description of an apparatus and methods for the production and preservation of a photobiofertilizer as a means for repairing disturbed arid soils.

Abstract: Biofertilizers have been identified as an alternative to chemical fertilization to increase soil fertility and crop production using sustainable farming. Treatment is with at least a proprietary formulation of a nitrogen-fixing consortium and Azospirillum brasilense. The application of biofertilizers resulted in higher biomass compared to chemical fertilizer treatment. Chlorophyll and nitrogen levels in these grass plants are also likely to be improved.

Abstract: This invention includes uses and methods of preparing phosphites and/or hyposphosphites (and their polymeric forms and/or their salts) and phosphite-based agrochemicals (fertilizers and biocides) from phosphate or other naturally occurring or synthetic phosphorus sources using anaerobic microbial fermentation. The fermentation process produces both a liquid and solid phase phosphite/hypophosphite salts which can be used as an agrochemical product.

Abstract: The present invention provides a method for preparing a biological fertilizer composition that comprises yeast cells and swine manure. The yeast cells of the invention have an enhanced ability to fix atmospheric nitrogen, decompose phosphorus minerals and compounds, decompose potassium minerals and compounds, decompose complex carbon compounds, overproduce growth factors, overproduce ATP, decompose undesirable chemicals, suppress growth of pathogenic microorganisms, or reduce undesirable odor.

Abstract: The present invention provides a method for preparing a biological fertilizer composition that comprises yeast cells and poultry manure. The yeast cells of the invention have an enhanced ability to fix atmospheric nitrogen, decompose phosphorus minerals and compounds, decompose potassium minerals and compounds, decompose complex carbon compounds, overproduce growth factors, overproduce ATP, decompose undesirable chemicals, suppress growth of pathogenic microorganisms, or reduce undesirable odor.

Abstract: The biological addition to organic-mineral fertilizers contains two bacteria associations taken in the ratio 1–2:0.5–1, with one of the associations containing Azotobacter chroococcum and Beijerinckia fluminensis nitrogen binding bacteria in the ratio 1–0.5:1–0.5 and the other association containing Bacillus megaterium and Bacillus mucilaginosis bacteria, which decompose phosphorus- and potassium containing compounds, in the ratio 1–5:0.5–2, as well as a preservative and micro- and macroelements.

Abstract: The present invention is concerned with an application of Lumeikesi hybrid rumex acetosa in production of agricultural fertilizer. Lumeikesi hybrid rumex is a new variety, which has high contents of protein, vitamin C and carotene. A nutrient juice of Lumeikesi hybrid rumex is added to weathered coal and converted to humic acid necessary for agricultural fertilizer, then formulated into agricultural fertilizer. The fertilizer can increase yield of crop, improve quantity of fruit and can also reduce environmental pollution and prevent humans from chemical substance.

Abstract: Materials inoculated with cyanobacteria are used to reclaim land. Methods and apparatus for making and disseminating cyanobacteria inoculants are disclosed. A thin-film growth method may be used to grow the cyanobacteria directly on a substrate material. Alternatively, the cyanobacteria may be grown separately, followed by application to the substrate material. Pieces of the inoculated substrate material are disseminated on soil. Upon contact with water, the cyanobacteria transform from a dormant stage to an active stage, and act to bind particles of the soil together.

Abstract: A fertilizer composition comprises an organic waste, an anti-bacterial agent, a wetting agent, an odor control agent and water.

Abstract: A microorganism fertilizer which causes in the soil a phenomenal multiplication of fluorescent Pseudomonas that have a superior effect in preventing the common scab of potato. The microorganism fertilizer is obtained such that medium-temperature and high-temperature Actinomycetes are used as seed bacteria and cultured while being spread/agitated in an organic substance such as livestock manure, etc. in an isolated propagation bed. The thus obtained microorganism fertilizer can be used as a countermeasure against environmental pollution.

Abstract: Embodiments of a coating composition and coating method for seeds are described, the coating including molybdenum and a sulfur-containing component and being for improving seed and seedling performance. The preferred molybdenum source is molybdenum trioxide, and the preferred sulfur source is gypsum. After planting, the seed coating provides protection for the seed during dry spells until moisture is received and seed growth is established. During the establishment period for legumes, the invented seed coating serves as a protective coat for the seed under adverse growing conditions, such as temperature and moisture extremes. Within a few days of emergence of legume seedlings, the invented coating stimulates and/or feeds the Rhizobium bacteria that is in place on the seed and speeds up formation of the Rhizobium, which fixes/feeds nitrogen to the plant. The coating and method may also include inoculation with Rhizobium, and, optionally, other nutrients, pesticides, or herbicides and a binder.

Abstract: The present invention provides a method for increasing productivity of a plant by spraying Pink Pigmented Facultative Methylotroph (PPFM) on a plant. The invention also relates to increasing productivity of a plant under stress by applying Pink Pigmented Facultative Methylotroph (PPFM) to a plant and subsequently applying an aqueous solution containing methanol to the plant.

Abstract: Disclosed are gel formulations, which are useful for dressing plant seed. The gel formulations comprise at least one active compound, at least one gel-forming agent, water, and an additive.

Abstract: Bacterial preparation which comprises material belonging to genus Bacillus, producing lipopeptides which decrease surface tension of water, and possessing an ability to propagate in soil in the presence of vegetable cellulosic materials under anaerobic condition, and of bacteria belonging to genus Bacillus or genus Clostridium, producing cellulases and possessing an ability to propagate in soil in the presence of vegetable cellulosic materials, and preferably of bacteria belonging to genus Bacillus or genus Clostridium, fixing nitrogen and possessing an ability to propagate in soil in the presence of vegetable cellulosic materials under anaerobic conditions. Examples of lipopeptide-producing bacteria are: B. subtilis, B. licheniformis, B. circulans; examples of cellulases-producing bacteria are: B. subtilis, B. licheniformis, B. circulans, B. polymyxa, B. coagulans, B. macetans, Cl. cellulolyticum, Cl. aerotolerans, Cl. acetobutylicum, examples of nitrogen-fixing bacteria are: B. azotofixans, B. macerans, B.