Filling in the <scp>GAPS</scp>: evaluating completeness and coverage of open‐access biodiversity databases in the United States

Sustainable agriculture demands reduced input of man-made nitrogen (N) fertilizer, yet N2 fixation limits the productivity of crops with heterotrophic diazotrophic bacterial symbionts. We investigated floating ferns from the genus Azolla that host phototrophic diazotrophic Nostoc azollae in leaf pockets and belong to the fastest growing plants. Experimental production reported here demonstrated N-fertilizer independent production of nitrogen-rich biomass with an annual yield potential per ha of 1200 kg−1 N fixed and 35 t dry biomass. 15N2 fixation peaked at noon, reaching 0.4 mg N g−1 dry weight h−1. Azolla ferns therefore merit consideration as protein crops in spite of the fact that little is known about the fern’s physiology to enable domestication. To gain an understanding of their nitrogen physiology, analyses of fern diel transcript profiles under differing nitrogen fertilizer regimes were combined with microscopic observations. Results established that the ferns adapted to the phototrophic N2-fixing symbionts N. azollae by (1) adjusting metabolically to nightly absence of N supply using responses ancestral to ferns and seed plants; (2) developing a specialized xylem-rich vasculature surrounding the leaf-pocket organ; (3) responding to N-supply by controlling transcripts of genes mediating nutrient transport, allocation and vasculature development. Unlike other non-seed plants, the Azolla fern clock is shown to contain both the morning and evening loops; the evening loop is known to control rhythmic gene expression in the vasculature of seed plants and therefore may have evolved along with the vasculature in the ancestor of ferns and seed plants.

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Far-Red Light-Induced Azolla filiculoides Symbiosis Sexual Reproduction: Responsive Transcripts of Symbiont Nostoc azollae Encode Transporters Whilst Those of the Fern Relate to the Angiosperm Floral Transition

Dijkhuizen

Tabatabaei

Brouwer

et al. 2021

Front. Plant Sci.

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Water ferns of the genus Azolla and the filamentous cyanobacteria Nostoc azollae constitute a model symbiosis that enabled the colonization of the water surface with traits highly desirable for the development of more sustainable crops: their floating mats capture CO2 and fix N2 at high rates using light energy. Their mode of sexual reproduction is heterosporous. The regulation of the transition from the vegetative phase to the spore forming phase in ferns is largely unknown, yet a prerequisite for Azolla domestication, and of particular interest as ferns represent the sister lineage of seed plants. Sporocarps induced with far red light could be crossed so as to verify species attribution of strains from the Netherlands but not of the strain from the Anzali lagoon in Iran; the latter strain was assigned to a novel species cluster from South America. Red-dominated light suppresses the formation of dissemination stages in both gametophyte- and sporophyte-dominated lineages of plants, the response likely is a convergent ecological strategy to open fields. FR-responsive transcripts included those from MIKCC homologues of CMADS1 and miR319-controlled GAMYB transcription factors in the fern, transporters in N. azollae, and ycf2 in chloroplasts. Loci of conserved microRNA (miRNA) in the fern lineage included miR172, yet FR only induced miR529 and miR535, and reduced miR319 and miR159. Phylogenomic analyses of MIKCC TFs suggested that the control of flowering and flower organ specification may have originated from the diploid to haploid phase transition in the homosporous common ancestor of ferns and seed plants.

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Control of theAzollasymbiosis sexual reproduction: ferns to shed light on the origin of floral regulation?

Dijkhuizen

Tabatabaei

Brouwer

et al. 2020

Preprint

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SummaryRegulation of the transition from vegetative to spore-forming phases in ferns is largely unknown yet a pre-requisite for their domestication. External and endogenous cues regulating the formation of sporocarps were researched in Azolla ferns, that are heterosporous and constitute a symbiosis with the cyanobacteria Nostoc azollae.Once external cues were identified, small RNA and mRNA from eukaryotic and prokaryotic partners in the symbiosis were analyzed for differential accumulation upon transition to sexual reproduction.filiculoides fern sporocarp formation required far-red light (FR) and was suppressed by medium nitrogen; FR-induced sporocarps were viable in crosses that verified species attribution of Dutch strains but not those from Iran’s Anzali lagoon. FR-responsive transcripts encoded the Azolla MIKCC homologue of CMADS1, miRNA319-controlled GAMYB in the fern, ycf2 in chloroplasts, and transporters in N. azollae. Loci of conserved microRNA in the fern lineage included miR172, but FR only induced mirR529 and miR535, and reduced miR159 and miR319.The clade of the FR-responsive MIKCC radiated separately in ferns from the seed plant clade containing AtSOC1 and floral homeotic genes A, C, D and E, yet the data supports that regulons controlling seed plant flowering originate from the diploid to haploid phase transition in the common ancestor of seed plants and ferns.

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Enemy or ally: a genomic approach to elucidate the lifestyle of Phyllosticta citrichinaensis

Buijs

Groenewald

Haridas

et al. 2021

Preprint

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Members of the fungal genus Phyllosticta can colonize a variety of plant hosts, including several Citrus species such as Citrus sinensis (orange), Citrus limon (lemon), and Citrus maxima (pomelo). Some Phyllosticta species have the capacity to cause disease, such as Citrus Black Spot, while others have only been observed as endophytes. Thus far, genomic differences underlying lifestyle adaptations of Phyllosticta species have not yet been studied. Furthermore, the lifestyle of Phyllosticta citrichinaensis is ambiguous, as it has been described as a weak pathogen but Koch’s postulates may not have been established and the presence of this species was never reported to cause any crop or economic losses. Here, we examined the genomic differences between pathogenic and endophytic Phyllosticta spp. colonizing Citrus and specifically aimed to elucidate the lifestyle of Phyllosticta citrichinaensis. We found several genomic differences between species of different lifestyles, including groups of genes that were only present in pathogens or endophytes. We also observed that species, based on their carbohydrate active enzymes, group independent of their phylogenetic association, and this clustering correlated with trophy prediction. Phyllosticta citrichinaensis shows an intermediate lifestyle, sharing genomic and phenotypic attributes of both pathogens and endophytes. We thus present the first genomic comparison of multiple citrus-colonizing pathogens and endophytes of the genus Phyllosticta, and therefore provide the basis for further comparative studies into the lifestyle adaptations within this genus.

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Enemy or ally: a genomic approach to elucidate the lifestyle of Phyllosticta citrichinaensis

Buijs

Groenewald

Haridas

et al. 2022

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Valerie A. Buijs

Metabolic Adaptation, a Specialized Leaf Organ Structure and Vascular Responses to Diurnal N2 Fixation by Nostoc azollae Sustain the Astonishing Productivity of Azolla Ferns without Nitrogen Fertilizer

Far-Red Light-Induced Azolla filiculoides Symbiosis Sexual Reproduction: Responsive Transcripts of Symbiont Nostoc azollae Encode Transporters Whilst Those of the Fern Relate to the Angiosperm Floral Transition

Control of theAzollasymbiosis sexual reproduction: ferns to shed light on the origin of floral regulation?

Enemy or ally: a genomic approach to elucidate the lifestyle of Phyllosticta citrichinaensis

Enemy or ally: a genomic approach to elucidate the lifestyle of Phyllosticta citrichinaensis

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