More Like this

1. New record of the green algal fossil Proterocladus and coexisting microfossils from the Meso-Neoproterozoic Diaoyutai Formation in southern Liaoning, North China

   https://doi.org/10.1016/j.precamres.2023.107104  

   Li, Dongdong ; Luo, Genming ; Tang, Qing ; She, Zhenbing ; Xiao, Shuhai ( August 2023 , Precambrian Research)
2. Blue Waters, Green Bottoms: Benthic Filamentous Algal Blooms Are an Emerging Threat to Clear Lakes Worldwide

   https://doi.org/10.1093/biosci/biab049  

   Vadeboncoeur, Yvonne ; Moore, Marianne V ; Stewart, Simon D ; Chandra, Sudeep ; Atkins, Karen S ; Baron, Jill S ; Bouma-Gregson, Keith ; Brothers, Soren ; Francoeur, Steven N ; Genzoli, Laurel ; et al ( July 2021 , BioScience)

   null (Ed.)

   Abstract Nearshore (littoral) habitats of clear lakes with high water quality are increasingly experiencing unexplained proliferations of filamentous algae that grow on submerged surfaces. These filamentous algal blooms (FABs) are sometimes associated with nutrient pollution in groundwater, but complex changes in climate, nutrient transport, lake hydrodynamics, and food web structure may also facilitate this emerging threat to clear lakes. A coordinated effort among members of the public, managers, and scientists is needed to document the occurrence of FABs, to standardize methods for measuring their severity, to adapt existing data collection networks to include nearshore habitats, and to mitigate and reverse this profound structural change in lake ecosystems. Current models of lake eutrophication do not explain this littoral greening. However, a cohesive response to it is essential for protecting some of the world's most valued lakes and the flora, fauna, and ecosystem services they sustain. 

   more » « less
3. High-Throughput Genotyping of Green Algal Mutants Reveals Random Distribution of Mutagenic Insertion Sites and Endonucleolytic Cleavage of Transforming DNA

   https://doi.org/10.​1105/​tpc.​114.​124099  

   Zhang, R. ; Patena, W. ; Armbruster, U. ; Gang, S. S. ; Blum, S. R. ; Jonikas, M. C. ( April 2014 , The Plant Cell)
4. The Land–Sea Connection: Insights Into the Plant Lineage from a Green Algal Perspective

   https://doi.org/10.1146/annurev-arplant-071921-100530  

   Bachy, Charles ; Wittmers, Fabian ; Muschiol, Jan ; Hamilton, Maria ; Henrissat, Bernard ; Worden, Alexandra Z. ( May 2022 , Annual Review of Plant Biology)

   The colonization of land by plants generated opportunities for the rise of new heterotrophic life forms, including humankind. A unique event underpinned this massive change to earth ecosystems—the advent of eukaryotic green algae. Today, an abundant marine green algal group, the prasinophytes, alongside prasinodermophytes and nonmarine chlorophyte algae, is facilitating insights into plant developments. Genome-level data allow identification of conserved proteins and protein families with extensive modifications, losses, or gains and expansion patterns that connect to niche specialization and diversification. Here, we contextualize attributes according to Viridiplantae evolutionary relationships, starting with orthologous protein families, and then focusing on key elements with marked differentiation, resulting in patchy distributions across green algae and plants. We place attention on peptidoglycan biosynthesis, important for plastid division and walls; phytochrome photosensors that are master regulators in plants; and carbohydrate-active enzymes, essential to all manner of carbohydratebiotransformations. Together with advances in algal model systems, these areas are ripe for discovering molecular roles and innovations within and across plant and algal lineages. 

   more » « less
5. Green Algal Models for Multicellularity

   https://doi.org/10.1146/annurev-genet-032321-091533  

   Umen, James ; Herron, Matthew D. ( November 2021 , Annual Review of Genetics)

   The repeated evolution of multicellularity across the tree of life has profoundly affected the ecology and evolution of nearly all life on Earth. Many of these origins were in different groups of photosynthetic eukaryotes, or algae. Here, we review the evolution and genetics of multicellularity in several groups of green algae, which include the closest relatives of land plants. These include millimeter-scale, motile spheroids of up to 50,000 cells in the volvocine algae; decimeter-scale seaweeds in the genus Ulva (sea lettuce); and very plantlike, meter-scale freshwater algae in the genus Chara (stoneworts). We also describe algae in the genus Caulerpa, which are giant, multinucleate, morphologically complex single cells. In each case, we review the life cycle, phylogeny, and genetics of traits relevant to the evolution of multicellularity, and genetic and genomic resources available for the group in question. Finally, we suggest routes toward developing these groups as model organisms for the evolution of multicellularity. 

   more » « less