Publications by authors named "S L Pressel"
Mucoromycotina "fine root endophyte" (MFRE) fungi are an understudied group of plant symbionts that regularly co-occur with arbuscular mycorrhizal fungi. The functional significance of MFRE in plant nutrition remains underexplored, particularly their role in plant nitrogen (N) assimilation from the variety of sources typically found in soils. Using four N-labeled N sources to track N transfer between MFRE and Plantago lanceolata, applied singly and in tandem, we investigated N source discrimination, preference, and transfer to host plants by MFRE.
View Article and Find Full Text PDFIntroduction: Though used as the model liverwort in culture for several decades, the biology of Marchantia polymorpha subsp. ruderalis in nature has never been documented in detail in a single account.
Methods: Here we synthesize routine field observations documented with hundreds of images of M.
The plant kingdom exhibits diverse bodyplans, from single-celled algae to complex multicellular land plants, but it is unclear how this phenotypic disparity was achieved. Here we show that the living divisions comprise discrete clusters within morphospace, separated largely by reproductive innovations, the extinction of evolutionary intermediates and lineage-specific evolution. Phenotypic complexity correlates not with disparity but with ploidy history, reflecting the role of genome duplication in plant macroevolution.
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- The early Palaeozoic saw the emergence of plant-based ecosystems, which greatly influenced soil development, sedimentary structures, and global biogeochemical cycles due to plants' complex anchorage systems.
- Current research uses modern plant analogues, like liverworts and mosses, to explore micro-scale interactions associated with sediment stabilization, aiding our understanding of these historic processes.
- Techniques like scanning electron microscopy and X-ray computed tomography have revealed that rhizoids play a key role in soil grain entrapment and stabilization in thalloid liverworts.
Most plants form mycorrhizal associations with mutualistic soil fungi. Through these partnerships, resources are exchanged including photosynthetically fixed carbon for fungal-acquired nutrients. Recently, it was shown that the diversity of associated fungi is greater than previously assumed, extending to Mucoromycotina fungi.
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