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1. Effects of increased temperature on arctic slimy sculpin Cottus cognatus is mediated by food availability: Implications for climate change

   https://doi.org/10.1111/fwb.13659  

   Pennock, Casey A.; Budy, Phaedra; Atkinson, Carla L.; Barrett, Nick (December 2020, Freshwater Biology)

   Abstract Lakes are vulnerable to climate change, and warming rates in the Arctic are faster than anywhere on Earth. Fishes are sensitive to changing temperatures, which directly control physiological processes. Food availability should partly dictate responses to climate change because energetic demands change with temperature, but few studies have simultaneously examined temperature and food availability.We used a fully factorial experiment to test effects of food availability and temperature (7.6, 12.7, and 17.4°C; 50 days) on growth, consumption, respiration, and excretion, and effects of temperature (12 and 19.3°C; 27 days) on habitat use and growth of a common, but understudied, mid‐level consumer, slimy sculpinCottus cognatus, in arctic lakes. We also used bioenergetics modelling to predict consumptive demand under future warming scenarios.Growth rates were 3.4× higher at 12.7°C in high food compared to low food treatments, but the magnitude of differences depended on temperature. Within low food treatments, there was no statistical difference in growth rates among temperatures, suggesting food limitation. Consumption, respiration, and nitrogen excretion increased with temperature independent of food availability. Lower growth rates coincided with lower phosphorus excretion at the highest temperature, suggesting that fish selectively retained phosphorus at high temperatures and low food. In habitat choice experiments, fish were more likely to use the 12°C side of the tank, closely matching their optimal temperature. We predicted a 9% increase in consumption is required to maintain observed growth under a 4°C warming scenario.These results highlight considering changes in food resources and other associated indirect effects (e.g. excretion) that accompany changing temperatures with climate change. Depending on how food webs respond to warming, fish may cope with predicted warming if density‐dependent feedback maintains population sizes. 

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2. Fish feces reveal diverse nutrient sources for coral reefs

   https://doi.org/10.1002/ecy.4119  

   Van_Wert, Jacey_C; Ezzat, Leïla; Munsterman, Katrina_S; Landfield, Kaitlyn; Schiettekatte, Nina_M_D; Parravicini, Valeriano; Casey, Jordan_M; Brandl, Simon_J; Burkepile, Deron_E; Eliason, Erika_J (June 2023, Ecology)

   Abstract Consumers mediate nutrient cycling through excretion and egestion across most ecosystems. In nutrient‐poor tropical waters such as coral reefs, nutrient cycling is critical for maintaining productivity. While the cycling of fish‐derived inorganic nutrients via excretion has been extensively investigated, the role of egestion for nutrient cycling has remained poorly explored. We sampled the fecal contents of 570 individual fishes across 40 species, representing six dominant trophic guilds of coral reef fishes in Moorea, French Polynesia. We measured fecal macro‐ (proteins, carbohydrates, lipids) and micro‐ (calcium, copper, iron, magnesium, manganese, zinc) nutrients and compared the fecal nutrient quantity and quality across trophic guilds, taxa, and body size. Macro‐ and micronutrient concentrations in fish feces varied markedly across species. Genera and trophic guild best predicted fecal nutrient concentrations. In addition, nutrient composition in feces was unique among species within both trophic guilds (herbivores and corallivores) and genera (AcanthurusandChaetodon). Particularly, certain coral reef fishes (e.g.,Thalassoma hardwicke,Chromis xanthura,Chaetodon pelewensisandAcanthurus pyroferus) harbored relatively high concentrations of micronutrients (e.g., Mn, Mg, Zn and Fe, respectively) that are known to contribute to ocean productivity and positively impact coral physiological performances. Given the nutrient‐rich profiles across reef fish feces, conserving holistic reef fish communities ensures the availability of nutritional pools on coral reefs. We therefore suggest that better integration of consumer egestion dynamics into food web models and ecosystem‐scale processes will facilitate an improved understanding of coral reef functioning. 

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3. Plant 3D Modeling: Growing Plant Awareness with High School Students

   Langewisch, Tiffany; Arango-Caro, Sandra; Ying, Kaitlyn; Callis-Duehl, Kristine (June 2024, Plants people planet)

   • Understanding plants and how they affect the world is crucial. However, plant awareness disparity, the inability to notice plants, is common and results in lack of interest and positive attitudes toward plants and knowledge on their importance. Innovative and engaging plant science curricula is limited while needed to promote plant awareness. We created a 3D plant modeling module and examined its impact on plant awareness among high school students. • This module integrates science, art, design, and technology through a project-based STEAM approach where teachers acted as facilitators and students worked collaboratively. Students investigated the biology and importance of plants, created 3D plant models, experienced the application of 3D modeling in augmented and virtual reality platforms, and disseminated their results. Before and after the module, students completed the Plant Awareness Disparity Index and answered reflection questions about its components—attention, attitude, relative interest, and knowledge. • Quantitative analysis revealed that after completing the module, more students had positive statements about attention, attitude, and knowledge about plants and showed higher relative interest toward plants than animals. Student reflections showed that plants were the most notable feature outdoors, and students had mainly positive feelings toward plants. However, many students wrote that animals were more interesting than plants. Most students acknowledged the importance of plants for humans and the environment. • Our results indicated that our 3D plant modeling module positively influenced student plant awareness. This module can be implemented in any educational learning environment for high school students, including in-person and virtually. 

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4. Effects of climate and winter cover crops on nutrient loss in agricultural watersheds in the midwestern U.S.

   https://doi.org/10.1007/s10584-023-03656-4  

   Hamlet, Alan F; Ehsani, Nima; Tank, Jennifer L; Silver, Zachariah; Byun, Kyuhyun; Mahl, Ursula H; Speir, Shannon L; Trentman, Matt T; Royer, Todd V (January 2024, Climatic Change)

   Nutrient runoff from agricultural regions of the midwestern U.S. corn belt has degraded water quality in many inland and coastal water bodies such as the Great Lakes and Gulf of Mexico. Under current climate, observational studies have shown that winter cover crops can reduce dissolved nitrogen and phosphorus losses from row-cropped agricultural watersheds, but performance of cover crops in response to climate variability and climate change has not been systematically evaluated. Using the Soil & Water Assessment Tool (SWAT) model, calibrated using multiple years of field-based data, we simulated historical and projected future nutrient loss from two representative agricultural watersheds in northern Indiana, USA. For 100% cover crop coverage, historical simulations showed a 31–33% reduction in nitrate (NO3−) loss and a 15–23% reduction in Soluble Reactive Phosphorus (SRP) loss in comparison with a no-cover-crop baseline. Under climate change scenarios, without cover crops, projected warmer and wetter conditions strongly increased nutrient loss, especially in the fallow period from Oct to Apr when changes in infiltration and runoff are largest. In the absence of cover crops, annual nutrient losses for the RCP8.5 2080s scenario were 26–38% higher for NO3−, and 9–46% higher for SRP. However, the effectiveness of cover crops also increased under climate change. For an ensemble of 60 climate change scenarios based on CMIP5 RCP4.5 and RCP8.5 scenarios, 19 out of 24 ensemble-mean simulations of future nutrient loss with 100% cover crops were less than or equal to historical simulations with 100% cover crops, despite systematic increases in nutrient loss due to climate alone. These results demonstrate that planting winter cover crops over row-cropped land areas constitutes a robust climate change adaptation strategy for reducing nutrient losses from agricultural lands, enhancing resilience to a projected warmer and wetter winter climate in the midwestern U.S. 

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5. Positive feedbacks in coastal reef social-ecological systems can maintain coral dominance

   https://doi.org/10.1093/icesjms/fsae182  

   Pellowe, Kara_E; Durfort, Anaëlle; Burkepile, Deron_E; Mouillot, David; Lade, Steven_J; Rodil, ed., Ivan (December 2024, ICES Journal of Marine Science)

   Abstract Understanding the mechanisms underlying nutrient (nitrogen and phosphorus) and carbon cycling in reefs is critical for effective management. Research on reef nutrient and carbon cycling needs to account for (i) the contributions of multiple organisms, (ii) abiotic and biotic drivers, and (iii) a social-ecological perspective. In this paper, we review the mechanisms underlying nutrient and carbon cycling in reef social-ecological systems and analyse them using causal loop analysis. We identify direct and indirect pathways and feedback loops through nutrient and carbon cycles that shape the dominant benthic state of reefs: coral, algal, and sponge-dominated states. We find that two of three anthropogenic impact scenarios (size-selective fishing and land use change) have primarily negative consequences for coral and macroalgae via the nutrient and carbon cycles. A third scenario (runoff) has fewer negative impacts on sponges compared to other benthos. In all scenarios, frequent positive feedback loops (size-selective fishing: 7 of 12 loops; runoff: 6 of 9 loops; land use change: 8 of 11 loops) lead to system destabilization; however, the presence of multiple loops introduces avenues whereby reefs may retain coral dominance despite anthropogenic pressures. Context-specific information on the relative strength of loops will be necessary to predict future reef state. 

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