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1. More Than a Stick in the Mud: Eelgrass Leaf and Root Bacterial Communities Are Distinct From Those on Physical Mimics

   https://doi.org/10.1111/1758-2229.70086  

   Kardish, Melissa_R; Stachowicz, John_J (April 2025, Environmental Microbiology Reports)

   ABSTRACT We examine the role of physical structure versus biotic interactions in structuring host‐associated microbial communities on a marine angiosperm,Zostera marina, eelgrass. Across several months and sites, we compared microbiomes on physical mimics of eelgrass roots and leaves to those on intact plants. We find large, consistent differences in the microbiome of mimics and plants, especially on roots, but also on leaves. Key taxa that are more abundant on leaves have been associated with microalgal and macroalgal disease and merit further investigation to determine their role in mediating plant–microalgal–pathogen interactions. Root associated taxa were associated with sulphur and nitrogen cycling, potentially ameliorating environmental stresses for the plant. Our work identifies targets for future work on the functional role of the seagrass microbiome in promoting the success of these angiosperms in the sea through identifying components of microbial communities that are specific to seagrasses. 

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2. Agrobacterium ‐mediated Cuscuta campestris transformation as a tool for understanding plant–plant interactions

   https://doi.org/10.1111/nph.20140  

   Adhikari, Supral; Mudalige, Asha; Phillips, Lydia; Lee, Hyeyoung; Bernal‐Galeano, Vivian; Gruszewski, Hope; Westwood, James_H; Park, So‐Yon (October 2024, New Phytologist)

   Summary Cuscuta campestris, a stem parasitic plant, has served as a valuable model plant for the exploration of plant–plant interactions and molecular trafficking. However, a major barrier toC. campestrisresearch is that a method to generate stable transgenic plants has not yet been developed.Here, we describe the development of aCuscutatransformation protocol using various reporter genes (GFP, GUS, or RUBY) and morphogenic genes (CcWUS2andCcGRF/GIF), leading to a robust protocol forAgrobacterium‐mediatedC. campestristransformation.The stably transformed and regenerated RUBYC. campestrisplants produced haustoria, the signature organ of parasitic plants, and these were functional in forming host attachments. The locations of T‐DNA integration in the parasite genome were confirmed through TAIL‐PCR. TransformedC. campestrisalso produced flowers and viable transgenic seeds exhibiting betalain pigment, providing proof of germline transmission of the RUBY transgene. Furthermore, RUBY is not only a useful selectable marker for theAgrobacterium‐mediated transformation, but may also provide insight into the movement of molecules fromC. campestristo the host during parasitism.Thus, the protocol for transformation ofC. campestrisreported here overcomes a major obstacle toCuscutaresearch and opens new possibilities for studying parasitic plants and their interactions with hosts. 

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3. Neopolyploidy‐induced changes in giant duckweed ( Spirodela polyrhiza ) alter herbivore preference and performance and plant population performance

   https://doi.org/10.1002/ajb2.16301  

   Assour, Hannah R; Ashman, Tia‐Lynn; Turcotte, Martin M (March 2024, American Journal of Botany)

   Abstract PremisePolyploidy is a widespread mutational process in angiosperms that may alter population performance of not only plants but also their interacting species. Yet, knowledge of whether polyploidy affects plant–herbivore dynamics is scarce. Here, we tested whether aphid herbivores exhibit preference for diploid or neopolyploid plants, whether polyploidy impacts plant and herbivore performance, and whether these interactions depend on the plant genetic background. MethodsUsing independently synthesized neotetraploid strains paired with their diploid progenitors of greater duckweed (Spirodela polyrhiza), we evaluated the effect of neopolyploidy on duckweed's interaction with the water‐lily aphid (Rhopalosiphum nymphaeae). Using paired‐choice experiments, we evaluated feeding preference of the herbivore. We then evaluated the consequences of polyploidy on aphid and plant performance by measuring population growth over multiple generations. ResultsAphids preferred neopolyploids when plants were provided at equal abundances but not at equal surface areas, suggesting the role of plant population surface area in driving this preference. Additionally, neopolyploidy increased aphid population performance, but this result was dependent on the plant's genetic lineage. Lastly, the impact of herbivory on neopolyploid vs. diploid duckweed varied greatly with genetic lineage, where neopolyploids appeared to be variably tolerant compared to diploids, sometimes mirroring the effect on herbivore performance. ConclusionsBy experimentally testing the impacts of polyploidy on trophic species interactions, we showed that polyploidization can impact the preference and performance of herbivores on their plant hosts. These results have significant implications for the establishment and persistence of plants and herbivores in the face of plant polyploidy. 

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4. The role of host plants in driving pathogen susceptibility in insects through chemicals, immune responses and microbiota

   https://doi.org/10.1111/brv.70003  

   Sanaei, Ehsan; de_Roode, Jacobus C (February 2025, Biological Reviews)

   ABSTRACT In this comprehensive exploration, we delve into the pivotal role of host plants in shaping the intricate interactions between herbivorous insects and their pathogens. Recent decades have seen a surge in studies that demonstrate that host plants are crucial drivers of the interactions between insects and pathogens, providing novel insights into the direct and indirect interactions that shape tri‐trophic interactions. These studies have built on a wide range of pathogens, from viruses to bacteria, and from protozoans to fungi. We summarise these studies, and discuss the mechanisms of plant‐mediated insect resistance to infection, ranging from the toxicity of plant chemicals to pathogens to enhancement of anti‐pathogen immune responses, and modulation of the insect's microbiome. Although we provide evidence for the roles of all these mechanisms, we also point out that the majority of existing studies are phenomenological, describing patterns without addressing the underlying mechanisms. To further our understanding of these tri‐trophic interactions, we therefore urge researchers to design their studies to enable them specifically to distinguish the mechanisms by which plants affect insect susceptibility to pathogens. 

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5. Persistent biotic interactions of a Gondwanan conifer from Cretaceous Patagonia to modern Malesia

   https://doi.org/10.1038/s42003-020-01428-9  

   Donovan, Michael P.; Wilf, Peter; Iglesias, Ari; Cúneo, N. Rubén; Labandeira, Conrad C. (November 2020, Communications Biology)

   Abstract Many plant genera in the tropical West Pacific are survivors from the paleo-rainforests of Gondwana. For example, the oldest fossils of the Malesian and Australasian coniferAgathis(Araucariaceae) come from the early Paleocene and possibly latest Cretaceous of Patagonia, Argentina (West Gondwana). However, it is unknown whether dependent ecological guilds or lineages of associated insects and fungi persisted on Gondwanan host plants likeAgathisthrough time and space. We report insect-feeding and fungal damage on PatagonianAgathisfossils from four latest Cretaceous to middle Eocene floras spanning ca. 18 Myr and compare it with damage on extantAgathis. Very similar damage was found on fossil and modernAgathis, including blotch mines representing the first known Cretaceous–Paleogene boundary crossing leaf-mine association, external foliage feeding, galls, possible armored scale insect (Diaspididae) covers, and a rust fungus (Pucciniales). The similar suite of damage, unique to fossil and extantAgathis, suggests persistence of ecological guilds and possibly the component communities associated withAgathissince the late Mesozoic, implying host tracking of the genus across major plate movements that led to survival at great distances. The living associations, mostly made by still-unknown culprits, point to previously unrecognized biodiversity and evolutionary history in threatened rainforest ecosystems. 

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