Some of the longest and most comprehensive marine ecosystem monitoring programs were established in the Gulf of Alaska following the environmental disaster of the Exxon Valdez oil spill over 30 years ago. These monitoring programs have been successful in assessing recovery from oil spill impacts, and their continuation decades later has now provided an unparalleled assessment of ecosystem responses to another newly emerging global threat, marine heatwaves. The 2014–2016 northeast Pacific marine heatwave (PMH) in the Gulf of Alaska was the longest lasting heatwave globally over the past decade, with some cooling, but also continued warm conditions through 2019. Our analysis of 187 time series from primary production to commercial fisheries and nearshore intertidal to offshore oceanic domains demonstrate abrupt changes across trophic levels, with many responses persisting up to at least 5 years after the onset of the heatwave. Furthermore, our suite of metrics showed novel community-level groupings relative to at least a decade prior to the heatwave. Given anticipated increases in marine heatwaves under current climate projections, it remains uncertain when or if the Gulf of Alaska ecosystem will return to a pre-PMH state.
Pentatricopeptide repeat proteins (PPRPs) constitute one of the largest superfamilies in plants, with more than 440 identified in the Arabidopsis thaliana (L.) Heynh genome. While some PPRPs are known to take part in organelle gene expression, little is known about the broader biological contexts of PPRP gene function. Here, using developmental-and reverse-genetic approaches, we demonstrate that a number of PPRPs are essential early in plant development. We have characterized the Arabidopsis embryo-defective175 mutant and identified the EMB175 gene. Emb175 consistently displays aberrant cell organization and undergoes morphological arrest before the globular-heart transition. The emb175 mutation disrupts an intronless open reading frame encoding a predicted chloroplast-localized PPR protein-the first to be rigorously associated with an early embryo-lethal phenotype. To determine if other PPRP genes act in embryogenesis, we searched Arabidopsis insertion mutant collections for pprp knockout alleles, and identified 29 mutants representing 11 loci potentially associated with embryo-defective phenotypes. We assessed gene structures, T-DNA insertion position, and allelism for these loci and were able to firmly establish essential functions for six PPRP genes in addition to EMB175. Interestingly, Nomarski DIC microscopy revealed diverse embryonic defects in these lines, ranging from early lethality to dramatic late-stage morphological defects such as enlarged shoot apices and stunted cotyledons. Together, emb175 and these pprp knockout mutants establish essential roles for PPRPs in embryogenesis, thus broadening the known organismal context for PPRP gene function. The diversity of embpprp knockout phenotypes indicates that mutation of different PPRPs can, directly or indirectly, have distinct impacts on embryo morphogenesis.
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