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1. Hubbard Brook Experimental Forest: Lichen grazing assessment on valleywide plots

   https://doi.org/10.6073/pasta/25a88a88d698300f899f0a58132423b7  

   Cleavitt, Natalie; Clyne, Ailis (January 2021, Environmental Data Initiative)

   Herbivory by terrestrial gastropods, particularly Arion sp. (a non-native slug), can alter epiphytic lichen communities; however, little is known about this interaction in forests of North America. We used surveys of grazing damage to lichen thalli in the field on 52 plots within Hubbard Brook Experimental Forest, NH. Grazing damage by terrestrial gastropods was widespread, though few sites had severe grazing. Grazing damage was significantly higher on flatter terrain and on broadleaf trees. Overall, lichen communities in the HBEF were moderately impacted by terrestrial gastropod grazing, but potential effects of the non-native slugs at higher elevations and impacts on lichen health of widespread, moderate grazing deserve further study. These data were gathered as part of the Hubbard Brook Ecosystem Study (HBES). The HBES is a collaborative effort at the Hubbard Brook Experimental Forest, which is operated and maintained by the USDA Forest Service, Northern Research Station. These data were analyzed and published in: Clyne, Ailís B, Natalie L Cleavitt, and Timothy J Fahey. 2019. “Terrestrial Gastropod Grazing On Macrolichens In A Northern Broadleaf–Conifer Forest”. Northeastern Naturalist 26(2): 261 - 274. https://bioone.org/journals/Northeastern-Naturalist/volume-26/issue-2/045.026.0203/Terrestrial-Gastropod-Grazing-on-Macrolichens-in-a-Northern-BroadleafConifer-Forest/10.1656/045.026.0203.full. 

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2. A reference genome for the long-term kleptoplast-retaining sea slug Elysia crispata morphotype clarki

   https://doi.org/10.1093/g3journal/jkad234  

   Eastman, Katharine E; Pendleton, Amanda L; Shaikh, Mearaj A; Suttiyut, Thiti; Ogas, Raeya; Tomko, Paxton; Gavelis, Gregory; Widhalm, Joshua R; Wisecaver, Jennifer H (October 2023, G3: Genes, Genomes, Genetics)

   Mallarino, R (Ed.)

   Abstract Several species of sacoglossan sea slugs possess the incredible ability to sequester chloroplasts from the algae they consume. These “photosynthetic animals” incorporate stolen chloroplasts, called kleptoplasts, into the epithelial cells of tubules that extend from their digestive tracts throughout their bodies. The mechanism by which these slugs maintain functioning kleptoplasts in the absence of an algal nuclear genome is unknown. Here, we report a draft genome of the sacoglossan slug Elysia crispata morphotype clarki, a morphotype native to the Florida Keys that can retain photosynthetically active kleptoplasts for several months without feeding. We used a combination of Oxford Nanopore Technologies long reads and Illumina short reads to produce a 786-Mb assembly (N50 = 0.459 Mb) containing 68,514 predicted protein-coding genes. A phylogenetic analysis found no evidence of horizontal acquisition of genes from algae. We performed gene family and gene expression analyses to identify E. crispata genes unique to kleptoplast-containing slugs that were more highly expressed in fed versus unfed developmental life stages. Consistent with analyses in other kleptoplastic slugs, our investigation suggests that genes encoding lectin carbohydrate-binding proteins and those involved in regulation of reactive oxygen species and immunity may play a role in kleptoplast retention. Lastly, we identified four polyketide synthase genes that could potentially encode proteins producing UV- and oxidation-blocking compounds in slug cell membranes. The genome of E. crispata is a quality resource that provides potential targets for functional analyses and enables further investigation into the evolution and mechanisms of kleptoplasty in animals. 

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3. Behavior and Feeding of Two Beetle Pollinators of Zamia integrifolia (Cycadales): Rhopalotria slossoni (Coleoptera: Belidae) and Pharaxanotha floridana (Coleoptera: Erotylidae)

   https://doi.org/10.1653/024.106.0309  

   Simon, Avi; Salzman, Shayla; Specht, Chelsea D.; Raguso, Robert A. (September 2023, Florida Entomologist)

   Zamia integrifolia L.f. (Cycadales), a threatened cycad native to Florida, depends on 2 native beetle species for pollination: Rhopalotria slossoni (Chevrolat; Coleoptera: Belidae) and Pharaxanotha floridana (Casey; Coleoptera: Erotylidae). Both insects are brood-site pollina- tion mutualists, known to live and feed within the pollen (male) cone. However, for pollination to occur, beetles must also visit ovulate (fe- male) cones, which have been assumed to offer no benefits to them as food or nurseries. We tested the potential for beetle pollinator use of ovulate cones by performing no-choice behavior and feeding trials for adults of both beetle species on both ovulate cones and pollen cones of Z. integrifolia. Rhopalotria slossoni beetles showed greater survival on ovulate cone tissues despite showing no significant difference in to- tal tissue mass consumed between cone sexes. Conversely, P. floridana consumed more tissue mass from ovulate cone scales yet showed no difference in survivorship on ovulate vs. pollen cone scales. Although neither beetle species is found in large numbers on ovulate cones in the field, our laboratory study suggests that both species could po- tentially benefit from feeding on ovulate cone tissues, questioning the standing hypothesis that Z. integrifolia pollination occurs by deceit. 

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4. Element stoichiometry and nutrient limitation in bog plant and lichen species

   https://doi.org/10.1007/s10533-022-00968-y  

   Wieder, R. Kelman (September 2022, Biogeochemistry)

   Abstract Ombrotrophic bogs receive new inputs of elements solely through atmospheric deposition, except for N where inputs are predominantly through N 2 -fixation, at least in low N deposition environments. At various locations across the globe, including the Athabasca Oil Sands Region (AOSR) of northern Alberta, Canada, element atmospheric deposition has increased as a result of anthropogenic activities. Regional and/or global deposition gradients offer an opportunity to examine questions related to nutrient limitation and element stoichiometry, i.e., the maintenance of relatively constant element ratios in bog lichen/plant tissues despite differing element deposition/availability. Using a dataset of tissue element concentrations in eight lichen/plant species in six AOSR bogs, supplemented with literature data from other sites globally, this synthesis asks: is there evidence of element stoichiometric homeostasis in lichen or plant species in AOSR bogs; if so, do stoichiometric homeostasis relationships extend globally beyond the AOSR, and; do element ratios provide insight into element limitation for the eight species? Mean element ratios and their coefficients of variation, ternary NPK and CaMgK plots, and scaling coefficients revealed widespread evidence of stoichiometric homeostasis. Stoichiometric relationships generally were unaffected by differences in element deposition among the AOSR bogs. Stoichiometric relationships sometimes extended to a species globally, but sometimes did not. Element ratios and ternary diagrams suggested a combination of N-, P-, and K-limitation, both within and beyond the AOSR bogs. Regionally high atmospheric N deposition may have shifted some species from N-limitation prior to the Industrial Revolution to P- or K-limitation today. 

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5. Toxin tolerance across landscapes: Ecological exposure not a prerequisite

   https://doi.org/10.1111/1365-2435.14093  

   Dearing, M. Denise; Orr, Teri J.; Klure, Dylan M.; Greenhalgh, Robert; Weinstein, Sara B.; Stapleton, Tess E.; Yamada, KayLene Y. H.; Nelson, Madeleine D.; Doolin, Margaret L.; Nielsen, Danny P.; et al (May 2022, Functional Ecology)

   Abstract Little is known about the tolerances of mammalian herbivores to plant specialized metabolites across landscapes.We investigated the tolerances of two species of herbivorous woodrats,Neotoma lepida(desert woodrat) andNeotoma bryanti(Bryant's woodrat) to creosote bushLarrea tridentata, a widely distributed shrub with a highly toxic resin. Woodrats were sampled from 13 locations both with and without creosote bush across a 900 km transect in the US southwest. We tested whether these woodrat populations consume creosote bush using plant metabarcoding of faeces and quantified their tolerance to creosote bush through feeding trials using chow amended with creosote resin.Toxin tolerance was analysed in the context of population structure across collection sites with microsatellite analyses. Genetic differentiation among woodrats collected from different locations was minimal within either species. Tolerance differed substantially between the two species, withN. lepidapersisting 20% longer thanN. bryantiin feeding trials with creosote resin. Furthermore, in both species, tolerance to creosote resin was similar among woodrats near or within creosote bush habitat. In both species, woodrats collected >25 km from creosote had markedly lower tolerances to creosote resin compared to animals from within the range of creosote bush.The results imply that mammalian herbivores are adapted to the specialized metabolites of plants in their diet, and that this tolerance can extend several kilometres outside of the range of dietary items. That is, direct ecological exposure to the specialized chemistry of particular plant species is not a prerequisite for tolerance to these compounds. These findings lay the groundwork for additional studies to investigate the genetic mechanisms underlying toxin tolerance and to identify how these mechanisms are maintained across landscape‐level scales in mammalian herbivores. Read the freePlain Language Summaryfor this article on the Journal blog. 

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