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1. Nitrogen increases early‐stage and slows late‐stage decomposition across diverse grasslands

Author

Gill, Allison L, Adler, Peter B, Borer, Elizabeth T, Buyarski, Christopher R, Cleland, Elsa E, D'Antonio, Carla M, Davies, Kendi F, Gruner, Daniel S, Harpole, W Stanley, Hofmockel, Kirsten S, MacDougall, Andrew S, McCulley, Rebecca L, Melbourne, Brett A, Moore, Joslin L, Morgan, John W, Risch, Anita C, Schütz, Martin, Seabloom, Eric W, Wright, Justin P, Yang, Louie H, and Hobbie, Sarah E

Subjects
Biological Sciences, Ecology, Prevention, grasslands, litter decomposition, nitrogen, nitrogen deposition, Nutrient Network, phosphorus, Environmental Sciences, Agricultural and Veterinary Sciences
Abstract

To evaluate how increased anthropogenic nutrient inputs alter carbon cycling in grasslands, we conducted a litter decomposition study across 20 temperate grasslands on three continents within the Nutrient Network, a globally distributed nutrient enrichment experiment We determined the effects of addition of experimental nitrogen (N), phosphorus (P) and potassium plus micronutrient (Kμ) on decomposition of a common tree leaf litter in a long-term study (maximum of 7 years; exact deployment period varied across sites). The use of higher order decomposition models allowed us to distinguish between the effects of nutrients on early- versus late-stage decomposition. Across continents, the addition of N (but not other nutrients) accelerated early-stage decomposition and slowed late-stage decomposition, increasing the slowly decomposing fraction by 28% and the overall litter mean residence time by 58%. Synthesis. Using a novel, long-term cross-site experiment, we found widespread evidence that N enhances the early stages of above-ground plant litter decomposition across diverse and widespread temperate grassland sites but slows late-stage decomposition. These findings were corroborated by fitting the data to multiple decomposition models and have implications for N effects on soil organic matter formation. For example, following N enrichment, increased microbial processing of litter substrates early in decomposition could promote the production and transfer of low molecular weight compounds to soils and potentially enhance the stabilization of mineral-associated organic matter. By contrast, by slowing late-stage decomposition, N enrichment could promote particulate organic matter (POM) accumulation. Such hypotheses deserve further testing.

Published
2022

2. Nutrient availability controls the impact of mammalian herbivores on soil carbon and nitrogen pools in grasslands.

Author

Eisenhauer, Nico, Firn, Jennifer, Gherardi, Laureano, Hagenah, Nicole, Hautier, Yann, Hobbie, Sarah, Knops, Johannes, MacDougall, Andrew, McCulley, Rebecca, Moore, Joslin, Mortensen, Brent, Peri, Pablo, Prober, Suzanne, Riggs, Charlotte, Risch, Anita, Schütz, Martin, Seabloom, Eric, Siebert, Julia, Stevens, Carly, Veen, G, Sitters, Judith, Wubs, E, Bakker, Elisabeth, Crowther, Thomas, Adler, Peter, Bagchi, Sumanta, Bakker, Jonathan, Biederman, Lori, Borer, Elizabeth, and Cleland, Elsa

Subjects
Nutrient Network (NutNet), carbon sequestration, exclosure, fertilization, global change, grazing, herbivory, nutrient dynamics, nutrient enrichment, soil microorganisms
Abstract

Grasslands are subject to considerable alteration due to human activities globally, including widespread changes in populations and composition of large mammalian herbivores and elevated supply of nutrients. Grassland soils remain important reservoirs of carbon (C) and nitrogen (N). Herbivores may affect both C and N pools and these changes likely interact with increases in soil nutrient availability. Given the scale of grassland soil fluxes, such changes can have striking consequences for atmospheric C concentrations and the climate. Here, we use the Nutrient Network experiment to examine the responses of soil C and N pools to mammalian herbivore exclusion across 22 grasslands, under ambient and elevated nutrient availabilities (fertilized with NPK + micronutrients). We show that the impact of herbivore exclusion on soil C and N pools depends on fertilization. Under ambient nutrient conditions, we observed no effect of herbivore exclusion, but under elevated nutrient supply, pools are smaller upon herbivore exclusion. The highest mean soil C and N pools were found in grazed and fertilized plots. The decrease in soil C and N upon herbivore exclusion in combination with fertilization correlated with a decrease in aboveground plant biomass and microbial activity, indicating a reduced storage of organic matter and microbial residues as soil C and N. The response of soil C and N pools to herbivore exclusion was contingent on temperature - herbivores likely cause losses of C and N in colder sites and increases in warmer sites. Additionally, grasslands that contain mammalian herbivores have the potential to sequester more N under increased temperature variability and nutrient enrichment than ungrazed grasslands. Our study highlights the importance of conserving mammalian herbivore populations in grasslands worldwide. We need to incorporate local-scale herbivory, and its interaction with nutrient enrichment and climate, within global-scale models to better predict land-atmosphere interactions under future climate change.

Published
2020

3. Nutrient availability controls the impact of mammalian herbivores on soil carbon and nitrogen pools in grasslands

Author

Sitters, Judith, Wubs, ER Jasper, Bakker, Elisabeth S, Crowther, Thomas W, Adler, Peter B, Bagchi, Sumanta, Bakker, Jonathan D, Biederman, Lori, Borer, Elizabeth T, Cleland, Elsa E, Eisenhauer, Nico, Firn, Jennifer, Gherardi, Laureano, Hagenah, Nicole, Hautier, Yann, Hobbie, Sarah E, Knops, Johannes MH, MacDougall, Andrew S, McCulley, Rebecca L, Moore, Joslin L, Mortensen, Brent, Peri, Pablo L, Prober, Suzanne M, Riggs, Charlotte, Risch, Anita C, Schütz, Martin, Seabloom, Eric W, Siebert, Julia, Stevens, Carly J, and Veen, GF Ciska

Subjects
Climate Action, carbon sequestration, exclosure, fertilization, global change, grazing, herbivory, nutrient dynamics, nutrient enrichment, Nutrient Network, soil microorganisms, Environmental Sciences, Biological Sciences, Ecology
Abstract

Grasslands are subject to considerable alteration due to human activities globally, including widespread changes in populations and composition of large mammalian herbivores and elevated supply of nutrients. Grassland soils remain important reservoirs of carbon (C) and nitrogen (N). Herbivores may affect both C and N pools and these changes likely interact with increases in soil nutrient availability. Given the scale of grassland soil fluxes, such changes can have striking consequences for atmospheric C concentrations and the climate. Here, we use the Nutrient Network experiment to examine the responses of soil C and N pools to mammalian herbivore exclusion across 22 grasslands, under ambient and elevated nutrient availabilities (fertilized with NPK + micronutrients). We show that the impact of herbivore exclusion on soil C and N pools depends on fertilization. Under ambient nutrient conditions, we observed no effect of herbivore exclusion, but under elevated nutrient supply, pools are smaller upon herbivore exclusion. The highest mean soil C and N pools were found in grazed and fertilized plots. The decrease in soil C and N upon herbivore exclusion in combination with fertilization correlated with a decrease in aboveground plant biomass and microbial activity, indicating a reduced storage of organic matter and microbial residues as soil C and N. The response of soil C and N pools to herbivore exclusion was contingent on temperature - herbivores likely cause losses of C and N in colder sites and increases in warmer sites. Additionally, grasslands that contain mammalian herbivores have the potential to sequester more N under increased temperature variability and nutrient enrichment than ungrazed grasslands. Our study highlights the importance of conserving mammalian herbivore populations in grasslands worldwide. We need to incorporate local-scale herbivory, and its interaction with nutrient enrichment and climate, within global-scale models to better predict land-atmosphere interactions under future climate change.

Published
2020

4. Evolutionary history of grazing and resources determine herbivore exclusion effects on plant diversity

Author

Price, Jodi N., Sitters, Judith, Ohlert, Timothy, Tognetti, Pedro M., Brown, Cynthia S., Seabloom, Eric W., Borer, Elizabeth T., Prober, Suzanne M., Bakker, Elisabeth S., MacDougall, Andrew S., Yahdjian, Laura, Gruner, Daniel S., Olde Venterink, Harry, Barrio, Isabel C., Graff, Pamela, Bagchi, Sumanta, Arnillas, Carlos Alberto, Bakker, Jonathan D., Blumenthal, Dana M., Boughton, Elizabeth H., Brudvig, Lars A., Bugalho, Miguel N., Cadotte, Marc W., Caldeira, Maria C., Dickman, Chris R., Donohue, Ian, Grégory, Sonnier, Hautier, Yann, Jónsdóttir, Ingibjörg S., Lannes, Luciola S., McCulley, Rebecca L., Moore, Joslin L., Power, Sally A., Risch, Anita C., Schütz, Martin, Standish, Rachel, Stevens, Carly J., Veen, G. F., Virtanen, Risto, and Wardle, Glenda M.

Published
2022
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5. Nitrogen but not phosphorus addition affects symbiotic N2 fixation by legumes in natural and semi-natural grasslands located on four continents

Author

Vázquez, Eduardo, Schleuss, Per-Marten, Borer, Elizabeth T., Bugalho, Miguel N., Caldeira, Maria C., Eisenhauer, Nico, Eskelinen, Anu, Fay, Philip A., Haider, Sylvia, Jentsch, Anke, Kirkman, Kevin P., McCulley, Rebecca L., Peri, Pablo L., Price, Jodi, Richards, Anna E., Risch, Anita C., Roscher, Christiane, Schütz, Martin, Seabloom, Eric W., Standish, Rachel J., Stevens, Carly J., Tedder, Michelle J., Virtanen, Risto, and Spohn, Marie

Published
2022
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7. Leaf nutrients, not specific leaf area, are consistent indicators of elevated nutrient inputs

Author

Firn, Jennifer, McGree, James M, Harvey, Eric, Flores-Moreno, Habacuc, Schütz, Martin, Buckley, Yvonne M, Borer, Elizabeth T, Seabloom, Eric W, La Pierre, Kimberly J, MacDougall, Andrew M, Prober, Suzanne M, Stevens, Carly J, Sullivan, Lauren L, Porter, Erica, Ladouceur, Emma, Allen, Charlotte, Moromizato, Karine H, Morgan, John W, Harpole, W Stanley, Hautier, Yann, Eisenhauer, Nico, Wright, Justin P, Adler, Peter B, Arnillas, Carlos Alberto, Bakker, Jonathan D, Biederman, Lori, Broadbent, Arthur AD, Brown, Cynthia S, Bugalho, Miguel N, Caldeira, Maria C, Cleland, Elsa E, Ebeling, Anne, Fay, Philip A, Hagenah, Nicole, Kleinhesselink, Andrew R, Mitchell, Rachel, Moore, Joslin L, Nogueira, Carla, Peri, Pablo Luis, Roscher, Christiane, Smith, Melinda D, Wragg, Peter D, and Risch, Anita C

Subjects
Grassland, Magnoliopsida, Nutrients, Plant Leaves, Plant Physiological Phenomena
Abstract

Leaf traits are frequently measured in ecology to provide a 'common currency' for predicting how anthropogenic pressures impact ecosystem function. Here, we test whether leaf traits consistently respond to experimental treatments across 27 globally distributed grassland sites across 4 continents. We find that specific leaf area (leaf area per unit mass)-a commonly measured morphological trait inferring shifts between plant growth strategies-did not respond to up to four years of soil nutrient additions. Leaf nitrogen, phosphorus and potassium concentrations increased in response to the addition of each respective soil nutrient. We found few significant changes in leaf traits when vertebrate herbivores were excluded in the short-term. Leaf nitrogen and potassium concentrations were positively correlated with species turnover, suggesting that interspecific trait variation was a significant predictor of leaf nitrogen and potassium, but not of leaf phosphorus concentration. Climatic conditions and pretreatment soil nutrient levels also accounted for significant amounts of variation in the leaf traits measured. Overall, we find that leaf morphological traits, such as specific leaf area, are not appropriate indicators of plant response to anthropogenic perturbations in grasslands.

Published
2019

8. Change in dominance determines herbivore effects on plant biodiversity

Author

Koerner, Sally E, Smith, Melinda D, Burkepile, Deron E, Hanan, Niall P, Avolio, Meghan L, Collins, Scott L, Knapp, Alan K, Lemoine, Nathan P, Forrestel, Elisabeth J, Eby, Stephanie, Thompson, Dave I, Aguado-Santacruz, Gerardo A, Anderson, John P, Anderson, T Michael, Angassa, Ayana, Bagchi, Sumanta, Bakker, Elisabeth S, Bastin, Gary, Baur, Lauren E, Beard, Karen H, Beever, Erik A, Bohlen, Patrick J, Boughton, Elizabeth H, Canestro, Don, Cesa, Ariela, Chaneton, Enrique, Cheng, Jimin, D’Antonio, Carla M, Deleglise, Claire, Dembélé, Fadiala, Dorrough, Josh, Eldridge, David J, Fernandez-Going, Barbara, Fernández-Lugo, Silvia, Fraser, Lauchlan H, Freedman, Bill, García-Salgado, Gonzalo, Goheen, Jacob R, Guo, Liang, Husheer, Sean, Karembé, Moussa, Knops, Johannes MH, Kraaij, Tineke, Kulmatiski, Andrew, Kytöviita, Minna-Maarit, Lezama, Felipe, Loucougaray, Gregory, Loydi, Alejandro, Milchunas, Dan G, Milton, Suzanne J, Morgan, John W, Moxham, Claire, Nehring, Kyle C, Olff, Han, Palmer, Todd M, Rebollo, Salvador, Riginos, Corinna, Risch, Anita C, Rueda, Marta, Sankaran, Mahesh, Sasaki, Takehiro, Schoenecker, Kathryn A, Schultz, Nick L, Schütz, Martin, Schwabe, Angelika, Siebert, Frances, Smit, Christian, Stahlheber, Karen A, Storm, Christian, Strong, Dustin J, Su, Jishuai, Tiruvaimozhi, Yadugiri V, Tyler, Claudia, Val, James, Vandegehuchte, Martijn L, Veblen, Kari E, Vermeire, Lance T, Ward, David, Wu, Jianshuang, Young, Truman P, Yu, Qiang, and Zelikova, Tamara Jane

Subjects
Life Below Water, Animals, Biodiversity, Desert Climate, Grassland, Herbivory, Mammals, Plants
Abstract

Herbivores alter plant biodiversity (species richness) in many of the world's ecosystems, but the magnitude and the direction of herbivore effects on biodiversity vary widely within and among ecosystems. One current theory predicts that herbivores enhance plant biodiversity at high productivity but have the opposite effect at low productivity. Yet, empirical support for the importance of site productivity as a mediator of these herbivore impacts is equivocal. Here, we synthesize data from 252 large-herbivore exclusion studies, spanning a 20-fold range in site productivity, to test an alternative hypothesis-that herbivore-induced changes in the competitive environment determine the response of plant biodiversity to herbivory irrespective of productivity. Under this hypothesis, when herbivores reduce the abundance (biomass, cover) of dominant species (for example, because the dominant plant is palatable), additional resources become available to support new species, thereby increasing biodiversity. By contrast, if herbivores promote high dominance by increasing the abundance of herbivory-resistant, unpalatable species, then resource availability for other species decreases reducing biodiversity. We show that herbivore-induced change in dominance, independent of site productivity or precipitation (a proxy for productivity), is the best predictor of herbivore effects on biodiversity in grassland and savannah sites. Given that most herbaceous ecosystems are dominated by one or a few species, altering the competitive environment via herbivores or by other means may be an effective strategy for conserving biodiversity in grasslands and savannahs globally.

Published
2018

9. Spatial heterogeneity in species composition constrains plant community responses to herbivory and fertilisation.

Author

Hodapp, Dorothee, Borer, Elizabeth T, Harpole, W Stanley, Lind, Eric M, Seabloom, Eric W, Adler, Peter B, Alberti, Juan, Arnillas, Carlos A, Bakker, Jonathan D, Biederman, Lori, Cadotte, Marc, Cleland, Elsa E, Collins, Scott, Fay, Philip A, Firn, Jennifer, Hagenah, Nicole, Hautier, Yann, Iribarne, Oscar, Knops, Johannes MH, McCulley, Rebecca L, MacDougall, Andrew, Moore, Joslin L, Morgan, John W, Mortensen, Brent, La Pierre, Kimberly J, Risch, Anita C, Schütz, Martin, Peri, Pablo, Stevens, Carly J, Wright, Justin, and Hillebrand, Helmut

Subjects
Plants, Biodiversity, Herbivory, Beta diversity, Nutrient Network, diversity, fertilisation, grassland, nitrogen, spatial heterogeneity, species composition, temporal turnover, Ecological Applications, Ecology, Evolutionary Biology
Abstract

Environmental change can result in substantial shifts in community composition. The associated immigration and extinction events are likely constrained by the spatial distribution of species. Still, studies on environmental change typically quantify biotic responses at single spatial (time series within a single plot) or temporal (spatial beta diversity at single time points) scales, ignoring their potential interdependence. Here, we use data from a global network of grassland experiments to determine how turnover responses to two major forms of environmental change - fertilisation and herbivore loss - are affected by species pool size and spatial compositional heterogeneity. Fertilisation led to higher rates of local extinction, whereas turnover in herbivore exclusion plots was driven by species replacement. Overall, sites with more spatially heterogeneous composition showed significantly higher rates of annual turnover, independent of species pool size and treatment. Taking into account spatial biodiversity aspects will therefore improve our understanding of consequences of global and anthropogenic change on community dynamics.

Published
2018

10. Understanding the Cytomegalovirus Cyclin-Dependent Kinase Ortholog pUL97 as a Multifaceted Regulator and an Antiviral Drug Target.

Author

Marschall, Manfred, Schütz, Martin, Wild, Markus, Socher, Eileen, Wangen, Christina, Dhotre, Kishore, Rawlinson, William D., and Sticht, Heinrich

Subjects
*DRUG synergism, *PROTEIN kinases, *TARGETED drug delivery, *VIRAL replication, *HUMAN cytomegalovirus
Abstract

Herpesviral protein kinases, such as the therapy-relevant pUL97 of human cytomegalovirus (HCMV), are important for viral replication efficiency as well as pathogenesis, and represent key antiviral drug targets. HCMV pUL97 is a viral cyclin-dependent kinase (CDK) ortholog, as it shares functional and structural properties with human CDKs. Recently, the formation of vCDK/pUL97–cyclin complexes and the phosphorylation of a variety of viral and cellular substrate proteins has been demonstrated. Genetic mapping and structural modeling approaches helped to define two pUL97 interfaces, IF1 and IF2, responsible for cyclin binding. In particular, the regulatory importance of interactions between vCDK/pUL97 and host cyclins as well as CDKs has been highlighted, both as determinants of virus replication and as a novel drug-targeting option. This aspect was substantiated by the finding that virus replication was impaired upon cyclin type H knock-down, and that such host-directed interference also affected viruses resistant to existing therapies. Beyond the formation of binary interactive complexes, a ternary pUL97–cyclin H–CDK7 complex has also been described, and in light of this, an experimental trans-stimulation of CDK7 activity by pUL97 appeared crucial for virus–host coregulation. In accordance with this understanding, several novel antiviral targeting options have emerged. These include kinase inhibitors directed to pUL97, to host CDKs, and to the pUL97–cyclin H interactive complexes. Importantly, a statistically significant drug synergy has recently been reported for antiviral treatment schemes using combinations of pharmacologically relevant CDK7 and vCDK/pUL97 inhibitors, including maribavir. Combined, such findings provide increased options for anti-HCMV control. This review focuses on regulatory interactions of vCDK/pUL97 with the host cyclin–CDK apparatus, and it addresses the functional relevance of these key effector complexes for viral replication and pathogenesis. On this basis, novel strategies of antiviral drug targeting are defined. [ABSTRACT FROM AUTHOR]

Published
2024
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11. An Antiherpesviral Host-Directed Strategy Based on CDK7 Covalently Binding Drugs: Target-Selective, Picomolar-Dose, Cross-Virus Reactivity

Author

Yu, DongHoon, primary, Wagner, Sabrina, additional, Schütz, Martin, additional, Jeon, Yeejin, additional, Seo, Mooyoung, additional, Kim, Jaeseung, additional, Brückner, Nadine, additional, Kicuntod, Jintawee, additional, Tillmanns, Julia, additional, Wangen, Christina, additional, Hahn, Friedrich, additional, Kaufer, Benedikt B., additional, Neipel, Frank, additional, Eickhoff, Jan, additional, Klebl, Bert, additional, Nam, Kiyean, additional, and Marschall, Manfred, additional

Published
2024
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13. Author Correction: General destabilizing effects of eutrophication on grassland productivity at multiple spatial scales

Author

Hautier, Yann, Zhang, Pengfei, Loreau, Michel, Wilcox, Kevin R., Seabloom, Eric W., Borer, Elizabeth T., Byrnes, Jarrett E. K., Koerner, Sally E., Komatsu, Kimberly J., Lefcheck, Jonathan S., Hector, Andy, Adler, Peter B., Alberti, Juan, Arnillas, Carlos A., Bakker, Jonathan D., Brudvig, Lars A., Bugalho, Miguel N., Cadotte, Marc, Caldeira, Maria C., Carroll, Oliver, Crawley, Mick, Collins, Scott L., Daleo, Pedro, Dee, Laura E., Eisenhauer, Nico, Eskelinen, Anu, Fay, Philip A., Gilbert, Benjamin, Hansar, Amandine, Isbell, Forest, Knops, Johannes M. H., MacDougall, Andrew S., McCulley, Rebecca L., Moore, Joslin L., Morgan, John W., Mori, Akira S., Peri, Pablo L., Pos, Edwin T., Power, Sally A., Price, Jodi N., Reich, Peter B., Risch, Anita C., Roscher, Christiane, Sankaran, Mahesh, Schütz, Martin, Smith, Melinda, Stevens, Carly, Tognetti, Pedro M., Virtanen, Risto, Wardle, Glenda M., Wilfahrt, Peter A., and Wang, Shaopeng

Published
2021
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14. Author Correction: Leaf nutrients, not specific leaf area, are consistent indicators of elevated nutrient inputs

Author

Firn, Jennifer, McGree, James M., Harvey, Eric, Flores-Moreno, Habacuc, Schütz, Martin, Buckley, Yvonne M., Borer, Elizabeth T., Seabloom, Eric W., La Pierre, Kimberly J., MacDougall, Andrew M., Prober, Suzanne M., Stevens, Carly J., Sullivan, Lauren L., Porter, Erica, Ladouceur, Emma, Allen, Charlotte, Moromizato, Karine H., Morgan, John W., Harpole, W. Stanley, Hautier, Yann, Eisenhauer, Nico, Wright, Justin P., Adler, Peter B., Arnillas, Carlos Alberto, Bakker, Jonathan D., Biederman, Lori, Broadbent, Arthur A. D., Brown, Cynthia S., Bugalho, Miguel N., Caldeira, Maria C., Cleland, Elsa E., Ebeling, Anne, Fay, Philip A., Hagenah, Nicole, Kleinhesselink, Andrew R., Mitchell, Rachel, Moore, Joslin L., Nogueira, Carla, Peri, Pablo Luis, Roscher, Christiane, Smith, Melinda D., Wragg, Peter D., and Risch, Anita C.

Published
2020
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15. Grassland productivity limited by multiple nutrients.

Author

Fay, Philip A, Prober, Suzanne M, Harpole, W Stanley, Knops, Johannes MH, Bakker, Jonathan D, Borer, Elizabeth T, Lind, Eric M, MacDougall, Andrew S, Seabloom, Eric W, Wragg, Peter D, Adler, Peter B, Blumenthal, Dana M, Buckley, Yvonne M, Chu, Chengjin, Cleland, Elsa E, Collins, Scott L, Davies, Kendi F, Du, Guozhen, Feng, Xiaohui, Firn, Jennifer, Gruner, Daniel S, Hagenah, Nicole, Hautier, Yann, Heckman, Robert W, Jin, Virginia L, Kirkman, Kevin P, Klein, Julia, Ladwig, Laura M, Li, Qi, McCulley, Rebecca L, Melbourne, Brett A, Mitchell, Charles E, Moore, Joslin L, Morgan, John W, Risch, Anita C, Schütz, Martin, Stevens, Carly J, Wedin, David A, and Yang, Louie H

Subjects
Prevention, Nutrition
Abstract

Terrestrial ecosystem productivity is widely accepted to be nutrient limited(1). Although nitrogen (N) is deemed a key determinant of aboveground net primary production (ANPP)(2,3), the prevalence of co-limitation by N and phosphorus (P) is increasingly recognized(4-8). However, the extent to which terrestrial productivity is co-limited by nutrients other than N and P has remained unclear. Here, we report results from a standardized factorial nutrient addition experiment, in which we added N, P and potassium (K) combined with a selection of micronutrients (K+μ), alone or in concert, to 42 grassland sites spanning five continents, and monitored ANPP. Nutrient availability limited productivity at 31 of the 42 grassland sites. And pairwise combinations of N, P, and K+μ co-limited ANPP at 29 of the sites. Nitrogen limitation peaked in cool, high latitude sites. Our findings highlight the importance of less studied nutrients, such as K and micronutrients, for grassland productivity, and point to significant variations in the type and degree of nutrient limitation. We suggest that multiple-nutrient constraints must be considered when assessing the ecosystem-scale consequences of nutrient enrichment.

Published
2015

16. Cytomegalovirus cyclin-dependent kinase ortholog vCDK/pUL97 undergoes regulatory interaction with human cyclin H and CDK7 to codetermine viral replication efficiency

Author

Schütz, Martin, primary, Wangen, Christina, additional, Sommerer, Mona, additional, Kögler, Melanie, additional, Eickhoff, Jan, additional, Degenhart, Carsten, additional, Klebl, Bert, additional, Naing, Zin, additional, Egilmezer, Ece, additional, Hamilton, Stuart T., additional, Rawlinson, William D., additional, Sticht, Heinrich, additional, and Marschall, Manfred, additional

Published
2023
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18. Drivers of the microbial metabolic quotient across global grasslands

Author

Risch, Anita C., Zimmermann, Stephan, Schütz, Martin, Fay, Philip A., Borer, Elizabeth T., Broadbent, Arthur A. D., Caldeira, Maria C., Davies, Kendi F., Eisenhauer, Nico, Eskelinen, Anu, Hagedorn, Frank, Knops, Johannes M. H., Lembrechts, Jonas J., MacDougall, Andrew S., McCulley, Rebecca L., Melbourne, Brett A., Moore, Joslin L., Power, Sally A., Seabloom, Eric W., Silveira, Maria L., Virtanen, Risto, Yahdjian, Laura, and Ochoa-Hueso, Raul

Subjects
CLIMATE, Chemistry, HERBIVORE EXCLUSION, Global and Planetary Change, MICROBIAL BIOMASS CARBON, Ecology, Economics, MICROBIAL RESPIRATION, SOIL PROPERTIES, ANTHROPOGENIC MANAGEMENT, NUTRIENT ADDITION, Biology, Ecology, Evolution, Behavior and Systematics
Abstract

This dataset contains all data on which the following publication below is based. Paper Citation: Risch Anita C., Zimmermann, Stefan, Schütz, Martin, Borer, Elizabeth T., Broadbent, Arthur A.D., Caldeira, Maria C., Davies, Kendi F., Eisenhauer, Nico, Eskelinen, Anu, Fay, Philip A., Hagedorn, Frank, Knops, Johannes M.H., Lembrechts, Jonas, J., MacDougall, Andrew S., McCulley, Rebecca L., Melbourne, Brett A., Moore, Joslin L., Power, Sally A., Seabloom, Eric W., Silveira, Maria L., Virtanen, Risto, Yahdjian, Laura, Ochoa-Hueso, Raul (accepted). Drivers of the microbial metabolic quotient across global grasslands. Global Ecology and Biogeography Please cite this paper together with the citation for the datafile. The microbial metabolic quotient (MMQ; mg CO2-C mg MBC-1 h-1), defined as the amount of microbial CO2 respired (MR; mg CO2-C kg soil-1 h-1) per unit of microbial biomass C (MBC; mg C kg soil-1), is a key parameter for understanding the microbial regulation of the carbon (C) cycle, including soil C sequestration. Here, we experimentally tested hypotheses about the individual and interactive effects of multiple nutrient addition (NPK+micronutrients) and herbivore exclusion on MR, MBC, and MMQ across 23 sites (5 continents). Our sites encompassed a wide range of edaphoclimatic conditions, thus we assessed which edaphoclimatic variables affected MMQ the most and how they interacted with our treatments. Soils were collected in plots with established experimental treatments. MR was assessed in a five-week laboratory incubation without glucose addition, MBC via substrate-induced respiration. MMQ was calculated as MR/MBC and corrected for soil temperatures (MMQsoil). Using LMMs and SEMs, we analysed how edaphoclimatic characteristics and treatments interactively affected MMQsoil. MMQsoil was higher in locations with higher mean annual temperature, lower water holding capacity, and soil organic C concentration, but did not respond to our treatments across sites as neither MR nor MBC changed. We attributed this relative homeostasis to our treatments to the modulating influence of edaphoclimatic variables. For example, herbivore exclusion, regardless of fertilization, led to greater MMQsoil only at sites with lower soil organic C (-1.7%). Our results pinpoint the main variables related to MMQsoil across grasslands and emphasize the importance of the local edaphoclimatic conditions in controlling the response of the C cycle to anthropogenic stressors. By testing hypotheses about MMQsoil across global edaphoclimatic gradients, this work also helps to align the conflicting results of prior studies.

Published
2023

19. General destabilizing effects of eutrophication on grassland productivity at multiple spatial scales

Author

Hautier, Yann, Zhang, Pengfei, Loreau, Michel, Wilcox, Kevin R., Seabloom, Eric W., Borer, Elizabeth T., Byrnes, Jarrett E. K., Koerner, Sally E., Komatsu, Kimberly J., Lefcheck, Jonathan S., Hector, Andy, Adler, Peter B., Alberti, Juan, Arnillas, Carlos A., Bakker, Jonathan D., Brudvig, Lars A., Bugalho, Miguel N., Cadotte, Marc, Caldeira, Maria C., Carroll, Oliver, Crawley, Mick, Collins, Scott L., Daleo, Pedro, Dee, Laura E., Eisenhauer, Nico, Eskelinen, Anu, Fay, Philip A., Gilbert, Benjamin, Hansar, Amandine, Isbell, Forest, Knops, Johannes M. H., MacDougall, Andrew S., McCulley, Rebecca L., Moore, Joslin L., Morgan, John W., Mori, Akira S., Peri, Pablo L., Pos, Edwin T., Power, Sally A., Price, Jodi N., Reich, Peter B., Risch, Anita C., Roscher, Christiane, Sankaran, Mahesh, Schütz, Martin, Smith, Melinda, Stevens, Carly, Tognetti, Pedro M., Virtanen, Risto, Wardle, Glenda M., Wilfahrt, Peter A., and Wang, Shaopeng

Published
2020
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20. Advancing design for Additive Manufacturing Education: A focus on computational skills and competencies

Author

Graziosi, Serena (author), Wu, J. (author), Doubrovski, E.L. (author), Meisel, Nicholas (author), Schütz, Martin (author), Stankovic, Tino (author), Graziosi, Serena (author), Wu, J. (author), Doubrovski, E.L. (author), Meisel, Nicholas (author), Schütz, Martin (author), and Stankovic, Tino (author)

Abstract

The summer school is realized as a joint teaching project between several partner universities under the auspices of the IDEA League alliance. The school trains students and young researchers on exploring and applying the potential of computational-based strategies in design for additive manufacturing, while engaging in dedicated team working activities. The aim of this work is to report on and discuss the success of the summer school in terms of the learning goals achievement. The work is based on the results of a one-day workshop with the summer school alumni showing how the acquired knowledge, skills and competences impacted their studies, research, and professional careers in a long-term after the course is finished, and outlining possible course content improvements to plan the summer school in 2023 that will take place with physical presence., Materials and Manufacturing, Mechatronic Design

Published
2023
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21. Nutrients and herbivores impact grassland stability across spatial scales through different pathways

Author

Chen, Qingqing, Wang, Shaopeng, Seabloom, Eric W, MacDougall, Andrew S, Borer, Elizabeth T, Bakker, Jonathan D, Donohue, Ian, Knops, Johannes M H, Morgan, John W, Carroll, Oliver, Crawley, Mick, Bugalho, Miguel N, Power, Sally A, Eskelinen, Anu, Virtanen, Risto, Risch, Anita C, Schütz, Martin, Stevens, Carly, Caldeira, Maria C, Bagchi, Sumanta, Alberti, Juan, Hautier, Yann, Sub Ecology and Biodiversity, Ecology and Biodiversity, Sub Ecology and Biodiversity, and Ecology and Biodiversity

Subjects
Global and Planetary Change, Ecology, Biodiversity, Nutrients, Grassland, biodiversity-stability, eutrophication, Environmental Science(all), Nutrient Network (NutNet), Taverne, Environmental Chemistry, grazing, Herbivory, cross-scale, Ecosystem, General Environmental Science
Abstract

Nutrients and herbivores are well-known drivers of grassland diversity and stability in local communities. However, whether they interact to impact the stability of aboveground biomass and whether these effects depend on spatial scales remain unknown. It is also unclear whether nutrients and herbivores impact stability via different facets of plant diversity including species richness, evenness, and changes in community composition through time and space. We used a replicated experiment adding nutrients and excluding herbivores for 5 years in 34 global grasslands to explore these questions. We found that both nutrient addition and herbivore exclusion alone reduced stability at the larger spatial scale (aggregated local communities; gamma stability), but through different pathways. Nutrient addition reduced gamma stability primarily by increasing changes in local community composition over time, which was mainly driven by species replacement. Herbivore exclusion reduced gamma stability primarily by decreasing asynchronous dynamics among local communities (spatial asynchrony). Their interaction weakly increased gamma stability by increasing spatial asynchrony. Our findings indicate that disentangling the processes operating at different spatial scales may improve conservation and management aiming at maintaining the ability of ecosystems to reliably provide functions and services for humanity.

Published
2022

23. Fault prediction based on findings from static analysis

Author

Schütz, Martin Josef

Subjects
Vorhersage-Modelle, static analysis, Statische Analyse, software metrics, Software-Metriken, predictive models
Abstract

Fehler sind in der Entwicklung von komplexen Software-Systemen unvermeidbar. Entwickler*innen sind daher unausweichlich mit Fehlern konfrontiert, deren Korrekturen zukünftige Ressourcen binden und daher in weiterer Folge notwendige Fehlerbehebungen mit Implementierungen neuer Funktionen konkurrieren. Zudem steigen die Korrekturkosten umso mehr, je später die Fehler im Projektfortschritt entdeckt werden. Um diesen Umstand entsprechend zu adressieren, wird die Software-Qualitätssicherung frühzeitig in den Software-Entwicklungsprozess eingebunden. Hierfür wird vor allem der Einsatz von statischer Analyse empfohlen, welche bereits in sehr frühen Konstruktionsphasen eingesetzt werden kann. Deren Ergebnisberichte sind jedoch typischerweise sehr umfangreich, zeigen viele Regelverletzungen auf und unterstützen durch mangelnde Priorisierung Entwicklungsteams nicht in geeignetem Ausmaß. Demzufolge wäre es von unmittelbarem Vorteil, wenn diejenigen Hinweise statischer Analyse frühzeitig identifiziert werden, welche in weiterer Folge zu Fehlerwirkungen bei der Anwendung der Software-Systeme führen, um resultierende Folgekosten für Korrekturen zu reduzieren. Gegenstand dieser Arbeit ist es daher, Fehlerberichte von Releases und Hinweise statischer Analyse gegenüberzustellen. Auf Basis dieser Korrelationen werden geeignete Methoden der künstlichen Intelligenz eingesetzt, um praxistaugliche Modelle für die Anwendung im produktiven Umfeld zu trainieren und die Vorhersage von zukünftigen Fehlerwirkungen effektiv zu ermöglichen. Making errors during software development is unavoidable. Developers inevitably make errors that take additional time to fix later on. As a consequence efforts for bugfixing compete with implementing new features. Typically the later bugs are found, the higher the cost for remediation. To address this concern, software testing should start as early as possible in software development lifecycle. For this purpose, static analysis is proposed, but typically shows too many findings and hence do not support development teams appropriately. So it would be a benefit to premature detect those findings in static analysis that will result in failures to reduce subsequent efforts notably. The purpose of the thesis is to analyse failure data from issue tracking systems that are correlated to findings from static analysis. Thereupon an artificial intelligence-based approach is used to train practicable models for business environment that enables effective prediction of software faults. eingereicht von Mag. Martin J. Schütz Abweichender Titel laut Übersetzung der Verfasserin/des Verfassers Masterarbeit Universität Linz 2023

Published
2023

24. Highly conserved interaction profiles between clinically relevant mutants of the cytomegalovirus CDK-like kinase pUL97 and human cyclins: functional significance of cyclin H

Author

Schütz, Martin, Müller, Regina, Socher, Eileen, Wangen, Christina, Full, Florian, Wyler, Emanuel, Wong, Diana, Scherer, Myriam, Stamminger, Thomas, Chou, Sunwen, Rawlinson, William D., Hamilton, Stuart T., Sticht, Heinrich, Marschall, Manfred, and Kurokawa, Manae Suzuki

Subjects
viral CDK-like kinase, clinically relevant viral mutants, Cyclin-abhängige Kinasen, Cytomegalovirus, kinase activity, pUL97–cyclin interaction, Cyclin-Dependent Kinases, human cyclin complexes, functional relevance, Cyclin H, human cytomegalovirus, ddc:570, cyclin H functional significance, mapping and knock-out analyses, ddc:610, pUL97/vCDK, viral replication efficiency
Published
2022

26. Highly Conserved Interaction Profiles between Clinically Relevant Mutants of the Cytomegalovirus CDK-like Kinase pUL97 and Human Cyclins: Functional Significance of Cyclin H

Author

Schütz, Martin, primary, Müller, Regina, additional, Socher, Eileen, additional, Wangen, Christina, additional, Full, Florian, additional, Wyler, Emanuel, additional, Wong, Diana, additional, Scherer, Myriam, additional, Stamminger, Thomas, additional, Chou, Sunwen, additional, Rawlinson, William D., additional, Hamilton, Stuart T., additional, Sticht, Heinrich, additional, and Marschall, Manfred, additional

Published
2022
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29. Spatial resolution, spectral metrics and biomass are key aspects in estimating plant species richness from spectral diversity in species‐rich grasslands

Author

Rossi, Christian, Kneubühler, Mathias, Schütz, Martin, Schaepman, Michael E, Haller, Rudolf M, Risch, Anita C, University of Zurich, Disney, Mat, and He, Kate

Subjects
10122 Institute of Geography, Ecology, Behavior and Systematics, UFSP13-8 Global Change and Biodiversity, Evolution, 910 Geography & travel, Computers in Earth Sciences, Nature and Landscape Conservation
Published
2022

30. Controls of Initial Wood Decomposition on and in Forest Soils Using Standard Material

Author

Risch, Anita C, Page-Dumroese, Deborah S, Schweiger, Anna K, Beattie, James R, Curran, Mike P, Finér, Lena, Liu, Yongjian, Schütz, Martin, Terry, Tom A, Wang, Weiwei, Jurgensen, Martin F, and University of Zurich

Subjects
10122 Institute of Geography, UFSP13-8 Global Change and Biodiversity, 910 Geography & travel
Published
2022

31. Evolutionary history of grazing and resources determine herbivore exclusion effects on plant diversity

Author

Price, J., Sitters, J., Ohlert, Timothy, Tognetti, P.M., Brown, C, Seabloom, Eric W., Borer, Elizabeth, Prober, S., Bakker, L., MacDougall, Andrew S., Yahdjian, L., Gruner, Daniel S., Olde Venterink, Harry, Barrio, Isabel C., Graff, P., Bagchi, Sumanta, Arnillas, C.A., Bakker, J.D., Blumenthal, Dana M., Boughton, Elizabeth H., Brudvig, Lars A., Bugalho, Miguel N., Cadotte, Marc, Caldeira, M.C., Dickman, C. R., Donohue, Ian, Gregory, S., Hautier, Y., Jónsdóttir, Ingibjörg S., Lannes, L.S., Mcculley, Rebecca, Power, S.A., Risch, A., Schütz, Martin, Standish, Rachel J., Stevens, Carly, Veen, G.F., Virtanen, Risto, Wardle, Glenda M., Price, J., Sitters, J., Ohlert, Timothy, Tognetti, P.M., Brown, C, Seabloom, Eric W., Borer, Elizabeth, Prober, S., Bakker, L., MacDougall, Andrew S., Yahdjian, L., Gruner, Daniel S., Olde Venterink, Harry, Barrio, Isabel C., Graff, P., Bagchi, Sumanta, Arnillas, C.A., Bakker, J.D., Blumenthal, Dana M., Boughton, Elizabeth H., Brudvig, Lars A., Bugalho, Miguel N., Cadotte, Marc, Caldeira, M.C., Dickman, C. R., Donohue, Ian, Gregory, S., Hautier, Y., Jónsdóttir, Ingibjörg S., Lannes, L.S., Mcculley, Rebecca, Power, S.A., Risch, A., Schütz, Martin, Standish, Rachel J., Stevens, Carly, Veen, G.F., Virtanen, Risto, and Wardle, Glenda M.

Published
2022

32. Nutrients and herbivores impact grassland stability across spatial scales through different pathways

Author

Sub Ecology and Biodiversity, Ecology and Biodiversity, Chen, Qingqing, Wang, Shaopeng, Seabloom, Eric W, MacDougall, Andrew S, Borer, Elizabeth T, Bakker, Jonathan D, Donohue, Ian, Knops, Johannes M H, Morgan, John W, Carroll, Oliver, Crawley, Mick, Bugalho, Miguel N, Power, Sally A, Eskelinen, Anu, Virtanen, Risto, Risch, Anita C, Schütz, Martin, Stevens, Carly, Caldeira, Maria C, Bagchi, Sumanta, Alberti, Juan, Hautier, Yann, Sub Ecology and Biodiversity, Ecology and Biodiversity, Chen, Qingqing, Wang, Shaopeng, Seabloom, Eric W, MacDougall, Andrew S, Borer, Elizabeth T, Bakker, Jonathan D, Donohue, Ian, Knops, Johannes M H, Morgan, John W, Carroll, Oliver, Crawley, Mick, Bugalho, Miguel N, Power, Sally A, Eskelinen, Anu, Virtanen, Risto, Risch, Anita C, Schütz, Martin, Stevens, Carly, Caldeira, Maria C, Bagchi, Sumanta, Alberti, Juan, and Hautier, Yann

Published
2022

33. Nutrient enrichment increases invertebrate herbivory and pathogen damage in grasslands

Author

Ebeling, Anne, Strauss, Alex T., Adler, Peter B., Arnillas, Carlos A., Barrio, Isabel C., Biederman, Lori A., Borer, Elizabeth T., Bugalho, Miguel N., Caldeira, Maria C., Cadotte, Marc W., Daleo, Pedro, Eisenhauer, Nico, Eskelinen, Anu, Fay, Philip A., Firn, Jennifer, Graff, Pamela, Hagenah, Nicole, Haider, Sylvia, Komatsu, Kimberly J., McCulley, Rebecca L., Mitchell, Charles E., Moore, Joslin L., Pascual, Jesus, Peri, Pablo L., Power, Sally A., Prober, Suzanne M., Risch, Anita C., Roscher, Christiane, Sankaran, Mahesh, Seabloom, Eric W., Schielzeth, Holger, Schütz, Martin, Speziale, Karina L., Tedder, Michelle, Virtanen, Risto, Blumenthal, Dana M., Ebeling, Anne, Strauss, Alex T., Adler, Peter B., Arnillas, Carlos A., Barrio, Isabel C., Biederman, Lori A., Borer, Elizabeth T., Bugalho, Miguel N., Caldeira, Maria C., Cadotte, Marc W., Daleo, Pedro, Eisenhauer, Nico, Eskelinen, Anu, Fay, Philip A., Firn, Jennifer, Graff, Pamela, Hagenah, Nicole, Haider, Sylvia, Komatsu, Kimberly J., McCulley, Rebecca L., Mitchell, Charles E., Moore, Joslin L., Pascual, Jesus, Peri, Pablo L., Power, Sally A., Prober, Suzanne M., Risch, Anita C., Roscher, Christiane, Sankaran, Mahesh, Seabloom, Eric W., Schielzeth, Holger, Schütz, Martin, Speziale, Karina L., Tedder, Michelle, Virtanen, Risto, and Blumenthal, Dana M.

Abstract

Plant damage by invertebrate herbivores and pathogens influences the dynamics of grassland ecosystems, but anthropogenic changes in nitrogen and phosphorus availability can modify these relationships. Using a globally distributed experiment, we describe leaf damage on 153 plant taxa from 27 grasslands worldwide, under ambient conditions and with experimentally elevated nitrogen and phosphorus. Invertebrate damage significantly increased with nitrogen addition, especially in grasses and non-leguminous forbs. Pathogen damage increased with nitrogen in grasses and legumes but not forbs. Effects of phosphorus were generally weaker. Damage was higher in grasslands with more precipitation, but climatic conditions did not change effects of nutrients on leaf damage. On average, invertebrate damage was relatively higher on legumes and pathogen damage was relatively higher on grasses. Community-weighted mean damage reflected these functional group patterns, with no effects of N on community-weighted pathogen damage (due to opposing responses of grasses and forbs) but stronger effects of N on community-weighted invertebrate damage (due to consistent responses of grasses and forbs). Synthesis. As human-induced inputs of nitrogen and phosphorus continue to increase, understanding their impacts on invertebrate and pathogen damage becomes increasingly important. Our results demonstrate that eutrophication frequently increases plant damage and that damage increases with precipitation across a wide array of grasslands. Invertebrate and pathogen damage in grasslands is likely to increase in the future, with potential consequences for plant, invertebrate and pathogen communities, as well as the transfer of energy and nutrients across trophic levels.

Published
2022

34. Long-term recovery of above- and below-ground interactions in restored grasslands after topsoil removal and seed addition

Author

Resch, Monika Carol, Schütz, Martin, Ochoa-Hueso, Raúl, Buchmann, Nina, Frey, Beat, Graf, Ulrich, van der Putten, Wim H., Zimmermann, Stephan, Risch, Anita C., Resch, Monika Carol, Schütz, Martin, Ochoa-Hueso, Raúl, Buchmann, Nina, Frey, Beat, Graf, Ulrich, van der Putten, Wim H., Zimmermann, Stephan, and Risch, Anita C.

Abstract

Evaluation of restoration activities is indispensable to assess the extent to which targets have been reached. Usually, the main goal of ecological restoration is to restore biodiversity and ecosystem functioning, but validation is often based on a single indicator, which may or may not cope with whole-ecosystem dynamics. Network analyses are, however, powerful tools, allowing to examine both the recovery of various biotic and abiotic properties and the integrated response at community and ecosystem level. We used restoration sites where topsoil was removed from former intensively managed grassland and seeds were added. These sites were between 3 and 32 years old. We assessed how plants, soil biota, soil properties and correlation-based interactions between biotic communities and their abiotic environment developed over time and compared the results with (i) intensively managed (not restored), and (ii) well-preserved targeted semi-natural grasslands. Plant, nematode, fungal and prokaryotic diversity and community structures of the restored grasslands revealed clear successional patterns and followed similar trajectories towards targeted semi-natural grasslands. All biotic communities reached targeted diversity levels no later than 18 years post-restoration. Ecological networks of intensively managed and short-term (~4 years) restored grasslands were less tightly connected compared to those found in mid- and long-term (~18–30 years) restored and target grasslands. Restoration specifically enhanced interactions among biotic communities, but reduced interactions between biotic communities and their abiotic environment as well as interactions among abiotic properties in the short- and mid-term. Synthesis and applications: Overall, our study demonstrated that topsoil removal and seed addition were successful in restoring diverse, tightly coupled and well-connected biotic communities above- and below-ground similar to those found in the semi-natural grasslands that wer

Published
2022

35. Evolutionary history of grazing and resources determine herbivore exclusion effects on plant diversity

Author

Sub Ecology and Biodiversity, Ecology and Biodiversity, Price, Jodi N, Sitters, Judith, Ohlert, Timothy, Tognetti, Pedro M, Brown, Cynthia S, Seabloom, Eric W, Borer, Elizabeth T, Prober, Suzanne M, Bakker, Elisabeth S, MacDougall, Andrew S, Yahdjian, Laura, Gruner, Daniel S, Olde Venterink, Harry, Barrio, Isabel C, Graff, Pamela, Bagchi, Sumanta, Arnillas, Carlos Alberto, Bakker, Jonathan D, Blumenthal, Dana M, Boughton, Elizabeth H, Brudvig, Lars A, Bugalho, Miguel N, Cadotte, Marc W, Caldeira, Maria C, Dickman, Chris R, Donohue, Ian, Grégory, Sonnier, Hautier, Yann, Jónsdóttir, Ingibjörg S, Lannes, Luciola S, McCulley, Rebecca L, Moore, Joslin L, Power, Sally A, Risch, Anita C, Schütz, Martin, Standish, Rachel, Stevens, Carly J, Veen, G F, Virtanen, Risto, Wardle, Glenda M, Sub Ecology and Biodiversity, Ecology and Biodiversity, Price, Jodi N, Sitters, Judith, Ohlert, Timothy, Tognetti, Pedro M, Brown, Cynthia S, Seabloom, Eric W, Borer, Elizabeth T, Prober, Suzanne M, Bakker, Elisabeth S, MacDougall, Andrew S, Yahdjian, Laura, Gruner, Daniel S, Olde Venterink, Harry, Barrio, Isabel C, Graff, Pamela, Bagchi, Sumanta, Arnillas, Carlos Alberto, Bakker, Jonathan D, Blumenthal, Dana M, Boughton, Elizabeth H, Brudvig, Lars A, Bugalho, Miguel N, Cadotte, Marc W, Caldeira, Maria C, Dickman, Chris R, Donohue, Ian, Grégory, Sonnier, Hautier, Yann, Jónsdóttir, Ingibjörg S, Lannes, Luciola S, McCulley, Rebecca L, Moore, Joslin L, Power, Sally A, Risch, Anita C, Schütz, Martin, Standish, Rachel, Stevens, Carly J, Veen, G F, Virtanen, Risto, and Wardle, Glenda M

Published
2022

36. Nitrogen but not phosphorus addition affects symbiotic N 2 fixation by legumes in natural and semi-natural grasslands located on four continents

Author

Vazquez, E., Schleuss, P-M., Borer, E.T., Bugalho, M.N., Caldeira, M.C., Eisenhauer, Nico, Eskelinen, Anu, Fay, P.A., Haider, S., Jentsch, A., Kirkman, Kevin P., McCulley, Rebecca L., Peri, Pablo L., Price, J, Richards, A.E., Risch, A., Roscher, Christiane, Schütz, Martin, Seabloom, Eric W., Standish, Rachel J., Stevens, Carly, Tedder, m.j., Virtanen, R, Spohn, M.J., Vazquez, E., Schleuss, P-M., Borer, E.T., Bugalho, M.N., Caldeira, M.C., Eisenhauer, Nico, Eskelinen, Anu, Fay, P.A., Haider, S., Jentsch, A., Kirkman, Kevin P., McCulley, Rebecca L., Peri, Pablo L., Price, J, Richards, A.E., Risch, A., Roscher, Christiane, Schütz, Martin, Seabloom, Eric W., Standish, Rachel J., Stevens, Carly, Tedder, m.j., Virtanen, R, and Spohn, M.J.

Abstract

Background and aims: The amount of nitrogen (N) derived from symbiotic N2 fixation by legumes in grasslands might be affected by anthropogenic N and phosphorus (P) inputs, but the underlying mechanisms are not known. Methods: We evaluated symbiotic N2 fixation in 17 natural and semi-natural grasslands on four continents that are subjected to the same full-factorial N and P addition experiment, using the 15N natural abundance method. Results: N as well as combined N and P (NP) addition reduced aboveground legume biomass by 65% and 45%, respectively, compared to the control, whereas P addition had no significant impact. Addition of N and/or P had no significant effect on the symbiotic N2 fixation per unit legume biomass. In consequence, the amount of N fixed annually per grassland area was less than half in the N addition treatments compared to control and P addition, irrespective of whether the dominant legumes were annuals or perennials. Conclusion: Our results reveal that N addition mainly impacts symbiotic N2 fixation via reduced biomass of legumes rather than changes in N2 fixation per unit legume biomass. The results show that soil N enrichment by anthropogenic activities significantly reduces N2 fixation in grasslands, and these effects cannot be reversed by additional P amendment.

Published
2022

37. Nutrients and herbivores impact grassland stability across spatial scales through different pathways

Author

Chen, Q.Q., Wang, S., MacDougall, Andrew S., Borer, Elizabeth T., Bakker, J.D., Donohue, Ian, Knops, Johannes M. H., Morgan, J.W., Carroll, Oliver, Crawley, Michael J., Bugalho, M.N., Power, Sally A., Eskelinen, A., Virtanen, R, Risch, Anita C., Schütz, Martin, Stevens, Carly, Caldeira, Maria, Bagchi, S., Alberti, Juan, Hautier, Yann, Chen, Q.Q., Wang, S., MacDougall, Andrew S., Borer, Elizabeth T., Bakker, J.D., Donohue, Ian, Knops, Johannes M. H., Morgan, J.W., Carroll, Oliver, Crawley, Michael J., Bugalho, M.N., Power, Sally A., Eskelinen, A., Virtanen, R, Risch, Anita C., Schütz, Martin, Stevens, Carly, Caldeira, Maria, Bagchi, S., Alberti, Juan, and Hautier, Yann

Abstract

Nutrients and herbivores are well-known drivers of grassland diversity and stability in local communities. However, whether they interact to impact the stability of aboveground biomass and whether these effects depend on spatial scales remain unknown. It is also unclear whether nutrients and herbivores impact stability via different facets of plant diversity including species richness, evenness, and changes in community composition through time and space. We used a replicated experiment adding nutrients and excluding herbivores for 5 years in 34 global grasslands to explore these questions. We found that both nutrient addition and herbivore exclusion alone reduced stability at the larger spatial scale (aggregated local communities; gamma stability), but through different pathways. Nutrient addition reduced gamma stability primarily by increasing changes in local community composition over time, which was mainly driven by species replacement. Herbivore exclusion reduced gamma stability primarily by decreasing asynchronous dynamics among local communities (spatial asynchrony). Their interaction weakly increased gamma stability by increasing spatial asynchrony. Our findings indicate that disentangling the processes operating at different spatial scales may improve conservation and management aiming at maintaining the ability of ecosystems to reliably provide functions and services for humanity.

Published
2022

38. Spatial resolution, spectral metrics and biomass are key aspects in estimating plant species richness from spectral diversity in species‐rich grasslands

Author

Disney, Mat, He, Kate, Disney, M ( Mat ), He, K ( Kate ), Rossi, Christian; https://orcid.org/0000-0001-9983-8898, Kneubühler, Mathias; https://orcid.org/0000-0002-6716-585X, Schütz, Martin, Schaepman, Michael E; https://orcid.org/0000-0002-9627-9565, Haller, Rudolf M, Risch, Anita C, Disney, Mat, He, Kate, Disney, M ( Mat ), He, K ( Kate ), Rossi, Christian; https://orcid.org/0000-0001-9983-8898, Kneubühler, Mathias; https://orcid.org/0000-0002-6716-585X, Schütz, Martin, Schaepman, Michael E; https://orcid.org/0000-0002-9627-9565, Haller, Rudolf M, and Risch, Anita C

Abstract

Increasing evidence suggests that remotely sensed spectral diversity is linked to plant species richness. However, a conflicting spectral diversity–biodiversity relationship in grasslands has been found in previous studies. In particular, it remains unclear how well the spectral diversity–biodiversity relationship holds in naturally assembled species-rich grasslands. To address the linkage between spectral diversity and plant species richness in a species-rich alpine grassland ecosystem, we investigated (i) the trade-off between spectral and spatial resolution in remote sensing data; (ii) the suitability of three different spectral metrics to describe spectral diversity (coefficient of variation, convex hull volume and spectral species richness) and (iii) the importance of confounding effects of live plant biomass, dead plant biomass and plant life forms on the spectral diversity–biodiversity relationship. We addressed these questions using remote sensing data collected with consumer-grade cameras with four spectral bands and 10 cm spatial resolution on an unmanned aerial vehicle (UAV), airborne imaging spectrometer data (AVIRIS-NG) with 372 bands and 2.5 m spatial resolution, and a fused data product of both datasets. Our findings suggest that a fused dataset can cope with the requirement of both high spatial- and spectral resolution to remotely measure biodiversity. However, in contrast to several previous studies, we found a negative correlation between plant species richness and spectral metrics based on the spectral information content (i.e. spectral complexity). The spectral diversity calculated based on the spectral complexity was sensitive to live and dead plant biomass. Overall, our results suggest that remote sensing of plant species diversity requires a high spatial resolution, the use of classification-based spectral metrics, such as spectral species richness, and awareness of confounding factors (e.g. plant biomass), which may be ecosystem specific.

Published
2022

42. Global Grassland Diazotrophic Communities Are Structured by Combined Abiotic, Biotic, and Spatial Distance Factors but Resilient to Fertilization

Author

Nepel, Maximilian, primary, Angel, Roey, additional, Borer, Elizabeth T., additional, Frey, Beat, additional, MacDougall, Andrew S., additional, McCulley, Rebecca L., additional, Risch, Anita C., additional, Schütz, Martin, additional, Seabloom, Eric W., additional, and Woebken, Dagmar, additional

Published
2022
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49. Exploiting the Amazing Diversity of Natural Source-Derived Polysaccharides: Modern Procedures of Isolation, Engineering, and Optimization of Antiviral Activities

Author

Ray, Bimalendu, Schütz, Martin, Mukherjee, Shuvam, Jana, Subrata, Ray, Sayani, and Marschall, Manfred

Subjects
lcsh:QD241-441, polysaccharide sulfates, lcsh:Organic chemistry, broad-spectrum bioactivity, amalgamated extraction-sulfation methods, structure–activity relationships, natural source-derived compounds, chemical profiles, ddc:610, Review, specific antiviral activities
Abstract

Naturally occurring polysaccharide sulfates are highly diverse, owning variations in the backbone structure, linkage pattern and stereochemistry, branching diversity, sulfate content and positions of sulfate group(s). These structural characteristics bring about diverse sulfated polymers with dissimilar negative charge densities and structure–activity relationships. Herein, we start with a short discussion of techniques needed for extraction, purification, chemical sulfation, and structural characterization of polysaccharides. Processes of isolation and sulfation of plant-derived polysaccharides are challenging and usually involve two steps. In this context, we describe an integrated extraction-sulfation procedure that produces polysaccharide sulfates from natural products in one step, thereby generating additional pharmacological activities. Finally, we provide examples of the spectrum of natural source-derived polysaccharides possessing specific features of bioactivity, in particular focusing on current aspects of antiviral drug development and drug–target interaction. Thus, the review presents a detailed view on chemically engineered polysaccharides, especially sulfated derivatives, and underlines their promising biomedical perspectives.

Published
2021

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