Your search keyword '"Caldeira MC"' showing total 66 results

1. Species loss due to nutrient addition increases with spatial scale in global grasslands

Author

Haddad, N, Seabloom, EW, Batzer, E, Chase, JM, Stanley Harpole, W, Adler, PB, Bagchi, S, Bakker, JD, Barrio, IC, Biederman, L, Boughton, EH, Bugalho, MN, Caldeira, MC, Catford, JA, Daleo, P, Eisenhauer, N, Eskelinen, A, Haider, S, Hallett, LM, Svala Jonsdottir, I, Kimmel, K, Kuhlman, M, MacDougall, A, Molina, CD, Moore, JL, Morgan, JW, Muthukrishnan, R, Ohlert, T, Risch, AC, Roscher, C, Schuetz, M, Sonnier, G, Tognetti, PM, Virtanen, R, Wilfahrt, PA, Borer, ET, Haddad, N, Seabloom, EW, Batzer, E, Chase, JM, Stanley Harpole, W, Adler, PB, Bagchi, S, Bakker, JD, Barrio, IC, Biederman, L, Boughton, EH, Bugalho, MN, Caldeira, MC, Catford, JA, Daleo, P, Eisenhauer, N, Eskelinen, A, Haider, S, Hallett, LM, Svala Jonsdottir, I, Kimmel, K, Kuhlman, M, MacDougall, A, Molina, CD, Moore, JL, Morgan, JW, Muthukrishnan, R, Ohlert, T, Risch, AC, Roscher, C, Schuetz, M, Sonnier, G, Tognetti, PM, Virtanen, R, Wilfahrt, PA, and Borer, ET

Abstract

The effects of altered nutrient supplies and herbivore density on species diversity vary with spatial scale, because coexistence mechanisms are scale dependent. This scale dependence may alter the shape of the species-area relationship (SAR), which can be described by changes in species richness (S) as a power function of the sample area (A): S = cAz , where c and z are constants. We analysed the effects of experimental manipulations of nutrient supply and herbivore density on species richness across a range of scales (0.01-75 m2 ) at 30 grasslands in 10 countries. We found that nutrient addition reduced the number of species that could co-occur locally, indicated by the SAR intercepts (log c), but did not affect the SAR slopes (z). As a result, proportional species loss due to nutrient enrichment was largely unchanged across sampling scales, whereas total species loss increased over threefold across our range of sampling scales.

Published

2021

2. Author Correction: Widening global variability in grassland biomass since the 1980s.

Author

MacDougall AS, Esch E, Chen Q, Carroll O, Bonner C, Ohlert T, Siewert M, Sulik J, Schweiger AK, Borer ET, Naidu D, Bagchi S, Hautier Y, Wilfahrt P, Larson K, Olofsson J, Cleland E, Muthukrishnan R, O'Halloran L, Alberti J, Anderson TM, Arnillas CA, Bakker JD, Barrio IC, Biederman L, Boughton EH, Brudvig LA, Bruschetti M, Buckley Y, Bugalho MN, Cadotte MW, Caldeira MC, Catford JA, D'Antonio C, Davies K, Daleo P, Dickman CR, Donohue I, DuPre ME, Elgersma K, Eisenhauer N, Eskelinen A, Estrada C, Fay PA, Feng Y, Gruner DS, Hagenah N, Haider S, Harpole WS, Hersch-Green E, Jentsch A, Kirkman K, Knops JMH, Laanisto L, Lannes LS, Laungani R, Lkhagva A, Macek P, Martina JP, McCulley RL, Melbourne B, Mitchell R, Moore JL, Morgan JW, Muraina TO, Niu Y, Pärtel M, Peri PL, Power SA, Price JN, Prober SM, Ren Z, Risch AC, Smith NG, Sonnier G, Standish RJ, Stevens CJ, Tedder M, Tognetti P, Veen GFC, Virtanen R, Wardle GM, Waring E, Wolf AA, Yahdjian L, and Seabloom EW

Published

2024

3. Widening global variability in grassland biomass since the 1980s.

Author

MacDougall AS, Esch E, Chen Q, Carroll O, Bonner C, Ohlert T, Siewert M, Sulik J, Schweiger AK, Borer ET, Naidu D, Bagchi S, Hautier Y, Wilfahrt P, Larson K, Olofsson J, Cleland E, Muthukrishnan R, O'Halloran L, Alberti J, Anderson TM, Arnillas CA, Bakker JD, Barrio IC, Biederman L, Boughton EH, Brudvig LA, Bruschetti M, Buckley Y, Bugalho MN, Cadotte MW, Caldeira MC, Catford JA, D'Antonio C, Davies K, Daleo P, Dickman CR, Donohue I, DuPre ME, Elgersma K, Eisenhauer N, Eskelinen A, Estrada C, Fay PA, Feng Y, Gruner DS, Hagenah N, Haider S, Harpole WS, Hersch-Green E, Jentsch A, Kirkman K, Knops JMH, Laanisto L, Lannes LS, Laungani R, Lkhagva A, Macek P, Martina JP, McCulley RL, Melbourne B, Mitchell R, Moore JL, Morgan JW, Muraina TO, Niu Y, Pärtel M, Peri PL, Power SA, Price JN, Prober SM, Ren Z, Risch AC, Smith NG, Sonnier G, Standish RJ, Stevens CJ, Tedder M, Tognetti P, Veen GFC, Virtanen R, Wardle GM, Waring E, Wolf AA, Yahdjian L, and Seabloom EW

Subjects

Climate Change, Seasons, Biodiversity, Grassland, Biomass

Abstract

Global change is associated with variable shifts in the annual production of aboveground plant biomass, suggesting localized sensitivities with unclear causal origins. Combining remotely sensed normalized difference vegetation index data since the 1980s with contemporary field data from 84 grasslands on 6 continents, we show a widening divergence in site-level biomass ranging from +51% to -34% globally. Biomass generally increased in warmer, wetter and species-rich sites with longer growing seasons and declined in species-poor arid areas. Phenological changes were widespread, revealing substantive transitions in grassland seasonal cycling. Grazing, nitrogen deposition and plant invasion were prevalent in some regions but did not predict overall trends. Grasslands are undergoing sizable changes in production, with implications for food security, biodiversity and carbon storage especially in arid regions where declines are accelerating., (© 2024. The Author(s), under exclusive licence to Springer Nature Limited.)

Published

2024

4. Ungulates mitigate the effects of drought and shrub encroachment on the fire hazard of Mediterranean oak woodlands.

Author

Lecomte X, Bugalho MN, Catry FX, Fernandes PM, Cera A, and Caldeira MC

Subjects

Animals, Portugal, Fires, Deer physiology, Cistaceae physiology, Population Dynamics, Climate Change, Herbivory, Droughts, Quercus physiology, Forests, Wildfires

Abstract

Climate change is increasing the frequency of droughts and the risk of severe wildfires, which can interact with shrub encroachment and browsing by wild ungulates. Wild ungulate populations are expanding due, among other factors, to favorable habitat changes resulting from land abandonment or land-use changes. Understanding how ungulate browsing interacts with drought to affect woody plant mortality, plant flammability, and fire hazard is especially relevant in the context of climate change and increasing frequency of wildfires. The aim of this study is to explore the combined effects of cumulative drought, shrub encroachment, and ungulate browsing on the fire hazard of Mediterranean oak woodlands in Portugal. In a long-term (18 years) ungulate fencing exclusion experiment that simulated land abandonment and management neglect, we investigated the population dynamics of the native shrub Cistus ladanifer, which naturally dominates the understory of woodlands and is browsed by ungulates, comparing areas with (no fencing) and without (fencing) wild ungulate browsing. We also modeled fire behavior in browsed and unbrowsed plots considering drought and nondrought scenarios. Specifically, we estimated C. ladanifer population density, biomass, and fuel load characteristics, which were used to model fire behavior in drought and nondrought scenarios. Overall, drought increased the proportion of dead C. ladanifer shrub individuals, which was higher in the browsed plots. Drought decreased the ratio of live to dead shrub plant material, increased total fuel loading, shrub stand flammability, and the modeled fire parameters, that is, rate of surface fire spread, fireline intensity, and flame length. However, total fuel load and fire hazard were lower in browsed than unbrowsed plots, both in drought and nondrought scenarios. Browsing also decreased the population density of living shrubs, halting shrub encroachment. Our study provides long-term experimental evidence showing the role of wild ungulates in mitigating drought effects on fire hazard in shrub-encroached Mediterranean oak woodlands. Our results also emphasize that the long-term effects of land abandonment can interact with climate change drivers, affecting wildfire hazard. This is particularly relevant given the increasing incidence of land abandonment., (© 2024 The Authors. Ecological Applications published by Wiley Periodicals LLC on behalf of The Ecological Society of America.)

Published

2024

5. Coffee Extract as a Natural Antioxidant in Fresh Pork Sausage-A Model Approach.

Author

Fetsch VT, Kalschne DL, Canan C, Flores ÉLM, Viegas MC, Peiter GC, Zara RF, Amaral JS, and Corso MP

Abstract

Consumers are increasingly looking for healthy foods without the addition of synthetic additives. The aim of this study was to evaluate the efficiency of coffee extracts as a natural antioxidant in fresh pork sausage. Firstly, the conditions for obtaining coffee green extracts were optimized (Central Composite Rotatable Design 2 3 , variables: extraction time, ethanol-water ratio, and sample-solvent ratio) in an ultrasound bath (70 °C). The response variables were the bioactive compounds levels and antioxidant activity. Valid models were obtained ( p ≤ 0.05, R 2 > 0.751), with higher bioactive content and antioxidant activity in the central point region. Extracts of Robusta and Arabica coffee green (RG and AG) and medium roast (RR and AR) obtained, and central point (10 min, an ethanol concentration of 30%, and a sample-solvent ratio of 10 g/100 mL) and optimized (14.2 min, 34.2%, and 5.8 g/100 mL) parameters were characterized. The RG presented a significantly ( p ≤ 0.05) higher content of caffeine (3114.8 ± 50.0 and 3148.1 ± 13.5 mg/100 g) and 5-CQA (6417.1 ± 22.0 and 6706.4 ± 23.5 mg/100 g) in both extraction conditions, respectively. The RG and RR coffee presented the highest antioxidant activity. Two concentrations of RG and RR coffee extracts were tested in fresh pork sausage. The Robusta coffee extract presented the highest antioxidant activity in both roasted and green states. However, when applied to a meat product, the extract prepared with RG coffee showed better results, with efficiency in replacing synthetic antioxidants (content of malonaldehyde/kg of sample below 0.696 ± 0.059 in 20 days of storage), without altering the sensory attributes of the product (average scores above 7.16 ± 1.43 for all attributes evaluated). Therefore, the RG coffee extract was a suitable alternative as a natural antioxidant applied to fresh pork sausage.

Published

2024

6. Metrology supporting the European regulation for radiation protection.

Author

Alves JG, Caldeira MC, Röttger A, Khanbabaee B, Adam-Guillermin C, Siiskonen T, Živanović M, Šabeta A, and Glavič-Cindro D

Subjects

European Union, Industry, Radiation, Ionizing, Radiation Protection

Abstract

The European Association of National Metrology Institutes (EURAMET) within its research programme European Metrology Programme for Innovation and Research (EMPIR) funded project EMPIR 19NET03 supportBSS that contributes to the establishment of a European Metrology Network (EMN) for Radiation Protection (RP). The EMN-RP was established in September 2021 with the intent to work as a meeting point for the metrology community and all stakeholders in the field of ionising radiation regulation, thus providing quality assurance for measurements in each of the exposure situations contemplated in the European Legislation. Within project EMPIR 19NET03, work package 3 aims at the preparation of a Strategic Research Agenda (SRA) by identifying the metrology needs to support the European legislation and regulation in Radiation Protection and of two Roadmaps for metrology services, one under the European Council Directive 2013/59/EURATOM and the other under the EURATOM Treaty. Following a Gaps Workshop held in September 2020 and a second internal workshop that took place in April 2022, a questionnaire was prepared for distribution to the stakeholders, e.g. RP platforms and authorities, academia, industry, among other, together with an accompanying paper. In this paper, the authors present the state of the art of European legislation in RP, address the importance of metrology, the practices and activities that need metrology to meet the requirements set in the regulations, emphasise the need for quality assured measurements in all fields, highlight the stakeholders contributions in their specific area and show their vision of the EMN-RP., (© The Author(s) 2023. Published by Oxford University Press. All rights reserved. For Permissions, please email: journals.permissions@oup.com.)

Published

2024

7. Biofortification with selenium as an alternative to increase the total phenolic compounds in brassicas: a systematic review and meta-analysis.

Author

Kamchen CM, de Oliveira FL, de Souza TR, Vieira BS, Telles B, and Morzelle MC

Subjects

Humans, Antioxidants, Biofortification methods, Phenols analysis, Brassica chemistry, Selenium analysis

Abstract

The ability of brassicas to accumulate selenium is crucial for their positive effects on health. Selenium improves the immune system and the antioxidant defenses. Selenium biofortification of brassicas has therefore been explored to increase dietary selenium intake in humans. However, the effects of selenium biofortification on bioactive compounds, mainly phenolic compounds, are not clear. So, this systematic review and meta-analysis aimed to answer the question 'What are effects of the biofortification of brassicas with selenium on total phenolic compounds?' Ten studies, which assessed the effect of selenium biofortification on total phenolic compounds, were selected for qualitative synthesis and four studies were included in the meta-analysis after a thorough literature review of the PubMed, Science Direct, and Web of Knowledge databases. The quality of the evidence ranged from high to moderate. The meta-analysis results indicated that the total phenolic compound content was significantly higher (P = 0.002) in the supplemented group but the results showed considerable heterogeneity (P < 0.00001, I 2  = 97%) between studies. This systematic review and meta-analysis summarizes the effect of Se biofortification on the increase in the content of total phenolic compounds and it suggests that several factors can affect this relationship. © 2023 Society of Chemical Industry., (© 2023 Society of Chemical Industry.)

Published

2024

8. Effect of protein addition in properties of gels produced with jackfruit ( Artocarpus integrifolia ) seed starch: rheological and texture properties.

Author

Barbosa MC, Silva GL, Viana EBM, Bonomo RCF, Rodrigues LB, and Veloso CM

Abstract

Starches and proteins are two major types of biopolymer components in many foods. The interactions of protein with starches greatly influence the matrix structure and properties of starch-based food systems. In this study, the physical-chemical properties and the effect of the commercial whey protein concentrate in the texture and rheological properties of jackfruit starch gels were evaluated. The experimental design was completely randomized, using a 4 × 4 complete factorial scheme, with four levels of starch (3, 6, 9 and 12%) and four levels of protein (0, 2, 4 and 6%). In higher concentrations of starch the addition of proteins delayed the beginning of gelatinization, led to an increase in G' and G″ and decrease in the tan (δ) values, characterizing the gel as strong, e.g., the gel network became more structured. However, in the treatment with 6% starch the addition of protein led to a decrease in gel strength. For gels with 9% starch the increase in protein concentration, led a slight increase in the hardness and cohesiveness, characterizing a more rigid and cohesive gel. Overall, gels with 3 and 6% of starch showed characteristic behavior of a weak gel and with 9 and 12% of strong gel., Supplementary Information: The online version contains supplementary material available at 10.1007/s13197-023-05793-1., Competing Interests: Conflict of interestThe authors declare no conflict of interest., (© Association of Food Scientists & Technologists (India) 2023. Springer Nature or its licensor (e.g. a society or other partner) holds exclusive rights to this article under a publishing agreement with the author(s) or other rightsholder(s); author self-archiving of the accepted manuscript version of this article is solely governed by the terms of such publishing agreement and applicable law.)

Published

2023

9. Drivers of soil microbial and detritivore activity across global grasslands.

Author

Siebert J, Sünnemann M, Hautier Y, Risch AC, Bakker JD, Biederman L, Blumenthal DM, Borer ET, Bugalho MN, Broadbent AAD, Caldeira MC, Cleland E, Davies KF, Eskelinen A, Hagenah N, Knops JMH, MacDougall AS, McCulley RL, Moore JL, Power SA, Price JN, Seabloom EW, Standish R, Stevens CJ, Zimmermann S, and Eisenhauer N

Subjects

Soil chemistry, Soil Microbiology, Biodiversity, Ecosystem, Grassland

Abstract

Covering approximately 40% of land surfaces, grasslands provide critical ecosystem services that rely on soil organisms. However, the global determinants of soil biodiversity and functioning remain underexplored. In this study, we investigate the drivers of soil microbial and detritivore activity in grasslands across a wide range of climatic conditions on five continents. We apply standardized treatments of nutrient addition and herbivore reduction, allowing us to disentangle the regional and local drivers of soil organism activity. We use structural equation modeling to assess the direct and indirect effects of local and regional drivers on soil biological activities. Microbial and detritivore activities are positively correlated across global grasslands. These correlations are shaped more by global climatic factors than by local treatments, with annual precipitation and soil water content explaining the majority of the variation. Nutrient addition tends to reduce microbial activity by enhancing plant growth, while herbivore reduction typically increases microbial and detritivore activity through increased soil moisture. Our findings emphasize soil moisture as a key driver of soil biological activity, highlighting the potential impacts of climate change, altered grazing pressure, and eutrophication on nutrient cycling and decomposition within grassland ecosystems., (© 2023. The Author(s).)

Published

2023

10. The positive effect of plant diversity on soil carbon depends on climate.

Author

Spohn M, Bagchi S, Biederman LA, Borer ET, Bråthen KA, Bugalho MN, Caldeira MC, Catford JA, Collins SL, Eisenhauer N, Hagenah N, Haider S, Hautier Y, Knops JMH, Koerner SE, Laanisto L, Lekberg Y, Martina JP, Martinson H, McCulley RL, Peri PL, Macek P, Power SA, Risch AC, Roscher C, Seabloom EW, Stevens C, Veen GFC, Virtanen R, and Yahdjian L

Subjects

Carbon, Biodiversity, Biomass, Plants, Nitrogen, Ecosystem, Soil

Abstract

Little is currently known about how climate modulates the relationship between plant diversity and soil organic carbon and the mechanisms involved. Yet, this knowledge is of crucial importance in times of climate change and biodiversity loss. Here, we show that plant diversity is positively correlated with soil carbon content and soil carbon-to-nitrogen ratio across 84 grasslands on six continents that span wide climate gradients. The relationships between plant diversity and soil carbon as well as plant diversity and soil organic matter quality (carbon-to-nitrogen ratio) are particularly strong in warm and arid climates. While plant biomass is positively correlated with soil carbon, plant biomass is not significantly correlated with plant diversity. Our results indicate that plant diversity influences soil carbon storage not via the quantity of organic matter (plant biomass) inputs to soil, but through the quality of organic matter. The study implies that ecosystem management that restores plant diversity likely enhances soil carbon sequestration, particularly in warm and arid climates., (© 2023. Springer Nature Limited.)

Published

2023

11. Multidimensional responses of grassland stability to eutrophication.

Author

Chen Q, Wang S, Borer ET, Bakker JD, Seabloom EW, Harpole WS, Eisenhauer N, Lekberg Y, Buckley YM, Catford JA, Roscher C, Donohue I, Power SA, Daleo P, Ebeling A, Knops JMH, Martina JP, Eskelinen A, Morgan JW, Risch AC, Caldeira MC, Bugalho MN, Virtanen R, Barrio IC, Niu Y, Jentsch A, Stevens CJ, Gruner DS, MacDougall AS, Alberti J, and Hautier Y

Subjects

Biomass, Eutrophication, Seasons, Ecosystem, Grassland, Biodiversity

Abstract

Eutrophication usually impacts grassland biodiversity, community composition, and biomass production, but its impact on the stability of these community aspects is unclear. One challenge is that stability has many facets that can be tightly correlated (low dimensionality) or highly disparate (high dimensionality). Using standardized experiments in 55 grassland sites from a globally distributed experiment (NutNet), we quantify the effects of nutrient addition on five facets of stability (temporal invariability, resistance during dry and wet growing seasons, recovery after dry and wet growing seasons), measured on three community aspects (aboveground biomass, community composition, and species richness). Nutrient addition reduces the temporal invariability and resistance of species richness and community composition during dry and wet growing seasons, but does not affect those of biomass. Different stability measures are largely uncorrelated under both ambient and eutrophic conditions, indicating consistently high dimensionality. Harnessing the dimensionality of ecological stability provides insights for predicting grassland responses to global environmental change., (© 2023. Springer Nature Limited.)

Published

2023

12. Fermentation of araticum, baru, and pequi by-products by probiotic strains: effects on microorganisms, short-chain fatty acids, and bioactive compounds.

Author

de Oliveira FL, Morzelle MC, Moretti MMS, and Casarotti SN

Subjects

Fermentation, Lactobacillus acidophilus, Lactobacillus, Fatty Acids, Volatile, Probiotics

Abstract

Fruit by-products, due to their unique chemical composition containing dietary fibers and bioactive compounds, may favor the growth of probiotic strains. This study evaluated the fermentation of araticum, baru, and pequi by-products using Lactobacillus acidophilus (La-5, LA3, and NCFM) and Bifidobacterium animalis subsp. lactis (Bb-12) probiotic strains. We assessed probiotic viability, short-chain fatty acid levels, and bioactive compound levels after 48 h of fermentation. Araticum and pequi by-products led to counts higher than 6 log CFU/mL after 48-h fermentation for all Lactobacillus strains, but only the araticum by-product supported the growth of the Bb-12 strain. Fermentation of araticum by-product resulted in greater amounts of acetate (39.97 mM for LA3 and 39.08 mM for NCFM) and propionate (0.20 mM for NCFM), while baru by-product showed greater amounts of butyrate (0.20 mM for La-5 and Bb-12). Fermentation of araticum and baru by-products resulted in an increase in bioactive compounds, with the latter showing total phenolic compounds and antioxidant activity from 1.4 to 1.7 and from 1.3 to 3.1 times higher, respectively, than the negative control treatment. Araticum by-product exhibited a higher potential for prebiotic effects, and fermentation by the tested probiotic strains is essential to increase bioactive compound levels., (© The Author(s) 2023. Published by Oxford University Press on behalf of Applied Microbiology International.)

Published

2023

13. Herbivory and nutrients shape grassland soil seed banks.

Author

Eskelinen A, Jessen MT, Bahamonde HA, Bakker JD, Borer ET, Caldeira MC, Harpole WS, Jia M, Lannes LS, Nogueira C, Olde Venterink H, Peri PL, Porath-Krause AJ, Seabloom EW, Schroeder K, Tognetti PM, Yasui SE, Virtanen R, and Sullivan LL

Subjects

Animals, Seed Bank, Soil, Plants, Nutrients, Ecosystem, Mammals, Grassland, Herbivory

Abstract

Anthropogenic nutrient enrichment and shifts in herbivory can lead to dramatic changes in the composition and diversity of aboveground plant communities. In turn, this can alter seed banks in the soil, which are cryptic reservoirs of plant diversity. Here, we use data from seven Nutrient Network grassland sites on four continents, encompassing a range of climatic and environmental conditions, to test the joint effects of fertilization and aboveground mammalian herbivory on seed banks and on the similarity between aboveground plant communities and seed banks. We find that fertilization decreases plant species richness and diversity in seed banks, and homogenizes composition between aboveground and seed bank communities. Fertilization increases seed bank abundance especially in the presence of herbivores, while this effect is smaller in the absence of herbivores. Our findings highlight that nutrient enrichment can weaken a diversity maintaining mechanism in grasslands, and that herbivory needs to be considered when assessing nutrient enrichment effects on seed bank abundance., (© 2023. The Author(s).)

Published

2023

14. Globally consistent response of plant microbiome diversity across hosts and continents to soil nutrients and herbivores.

Author

Seabloom EW, Caldeira MC, Davies KF, Kinkel L, Knops JMH, Komatsu KJ, MacDougall AS, May G, Millican M, Moore JL, Perez LI, Porath-Krause AJ, Power SA, Prober SM, Risch AC, Stevens C, and Borer ET

Subjects

Biomass, Nutrients, Soil, Herbivory, Microbiota

Abstract

All multicellular organisms host a diverse microbiome composed of microbial pathogens, mutualists, and commensals, and changes in microbiome diversity or composition can alter host fitness and function. Nonetheless, we lack a general understanding of the drivers of microbiome diversity, in part because it is regulated by concurrent processes spanning scales from global to local. Global-scale environmental gradients can determine variation in microbiome diversity among sites, however an individual host's microbiome also may reflect its local micro-environment. We fill this knowledge gap by experimentally manipulating two potential mediators of plant microbiome diversity (soil nutrient supply and herbivore density) at 23 grassland sites spanning global-scale gradients in soil nutrients, climate, and plant biomass. Here we show that leaf-scale microbiome diversity in unmanipulated plots depended on the total microbiome diversity at each site, which was highest at sites with high soil nutrients and plant biomass. We also found that experimentally adding soil nutrients and excluding herbivores produced concordant results across sites, increasing microbiome diversity by increasing plant biomass, which created a shaded microclimate. This demonstration of consistent responses of microbiome diversity across a wide range of host species and environmental conditions suggests the possibility of a general, predictive understanding of microbiome diversity., (© 2023. The Author(s).)

Published

2023

15. Attributable mortality due to nosocomial sepsis in Brazilian hospitals: a case-control study.

Author

Zampieri FG, Cavalcanti AB, Taniguchi LU, Lisboa TC, Serpa-Neto A, Azevedo LCP, Nassar AP Jr, Miranda TA, Gomes SPC, de Alencar Filho MS, da Silva RTA, Lacerda FH, Veiga VC, de Oliveira Manoel AL, Biondi RS, Maia IS, Lovato WJ, de Oliveira CD, Pizzol FD, Filho MC, Amendola CP, Westphal GA, Figueiredo RC, Caser EB, de Figueiredo LM, de Freitas FGR, Fernandes SS, Gobatto ALN, Paranhos JLR, de Melo RMV, Sousa MT, de Almeida GMB, Ferronatto BR, Ferreira DM, Ramos FJS, Thompson MM, Grion CMC, Santos RHN, Damiani LP, and Machado FR

Abstract

Background: Nosocomial sepsis is a major healthcare issue, but there are few data on estimates of its attributable mortality. We aimed to estimate attributable mortality fraction (AF) due to nosocomial sepsis., Methods: Matched 1:1 case-control study in 37 hospitals in Brazil. Hospitalized patients in participating hospitals were included. Cases were hospital non-survivors and controls were hospital survivors, which were matched by admission type and date of discharge. Exposure was defined as occurrence of nosocomial sepsis, defined as antibiotic prescription plus presence of organ dysfunction attributed to sepsis without an alternative reason for organ failure; alternative definitions were explored. Main outcome measurement was nosocomial sepsis-attributable fractions, estimated using inversed-weight probabilities methods using generalized mixed model considering time-dependency of sepsis occurrence., Results: 3588 patients from 37 hospitals were included. Mean age was 63 years and 48.8% were female at birth. 470 sepsis episodes occurred in 388 patients (311 in cases and 77 in control group), with pneumonia being the most common source of infection (44.3%). Average AF for sepsis mortality was 0.076 (95% CI 0.068-0.084) for medical admissions; 0.043 (95% CI 0.032-0.055) for elective surgical admissions; and 0.036 (95% CI 0.017-0.055) for emergency surgeries. In a time-dependent analysis, AF for sepsis rose linearly for medical admissions, reaching close to 0.12 on day 28; AF plateaued earlier for other admission types (0.04 for elective surgery and 0.07 for urgent surgery). Alternative sepsis definitions yield different estimates., Conclusion: The impact of nosocomial sepsis on outcome is more pronounced in medical admissions and tends to increase over time. The results, however, are sensitive to sepsis definitions., (© 2023. The Author(s).)

Published

2023

16. Shrub Invasion Overrides the Effect of Imposed Drought on the Photosynthetic Capacity and Physiological Responses of Mediterranean Cork Oak Trees.

Author

Lobo-do-Vale R, Rafael T, Haberstroh S, Werner C, and Caldeira MC

Abstract

Mediterranean ecosystems face threats from both climate change and shrub invasion. As shrub cover increases, competition for water intensifies, exacerbating the negative effects of drought on ecosystem functioning. However, research into the combined effects of drought and shrub invasion on tree carbon assimilation has been limited. We used a Mediterranean cork oak ( Quercus suber ) woodland to investigate the effects of drought and shrub invasion by gum rockrose ( Cistus ladanifer ) on cork oak carbon assimilation and photosynthetic capacity. We established a factorial experiment of imposed drought (ambient and rain exclusion) and shrub invasion (invaded and non-invaded) and measured leaf water potential, stomatal conductance and photosynthesis as well as photosynthetic capacity in cork oak and gum rockrose over one year. We observed distinct detrimental effects of gum rockrose shrub invasion on the physiological responses of cork oak trees throughout the study period. Despite the imposed drought, the impact of shrub invasion was more pronounced, resulting in significant photosynthetic capacity reduction of 57% during summer. Stomatal and non-stomatal limitations were observed under moderate drought in both species. Our findings provide significant knowledge on the impact of gum rockrose invasion on the functioning of cork oak and can be used to improve the representation of photosynthesis in terrestrial biosphere models.

Published

2023

17. Fruit by-products as potential prebiotics and promising functional ingredients to produce fermented milk.

Author

Oliveira FL, Arruda TYP, Morzelle MC, Pereira APA, and Casarotti SN

Subjects

Animals, Dietary Fiber analysis, Fermentation, Fruit, Milk chemistry, Prebiotics analysis

Abstract

Recently, fruit by-products (FBP) have started to be explored due to their prebiotic potential associated with considerable amounts of dietary fibers and polyphenols. These compounds possess anti-inflammatory activity and can reduce dysbiosis, which is characterized by alterations in the composition and function of the gut microbiota and thus may reduce the onset or progression of several diseases. Therefore, the consumption of FBP must be encouraged. Among food products, fermented milk is a potential candidate for carrying FBP. In this scenario, this review discusses the prebiotic potential of FBP and their anti-inflammatory activity and brings a unique contribution, as it highlights fermented milk as a food carrier for FBP. Therefore, the technological application of FBP as a new ingredient to improve the nutritional and functional values of fermented milk, probiotic viability, and the effects of their addition on the physical and sensory characteristics of fermented milk are topics extensively covered in this review. Moreover, we described the chemical composition of FBP, focusing on polysaccharides and bioactive compounds, their obtention methods and potential adverse effects related to their consumption. Finally, limitations and future directions are outlined to deepen the understanding of FBP and to stimulate their use, to prove their prebiotic potential and to optimize their incorporation into fermented milk., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2022 Elsevier Ltd. All rights reserved.)

Published

2022

18. Soil VOC emissions of a Mediterranean woodland are sensitive to shrub invasion.

Author

Meischner M, Haberstroh S, Daber LE, Kreuzwieser J, Caldeira MC, Schnitzler JP, and Werner C

Subjects

Acetaldehyde, Acetone, Ecosystem, Forests, Methanol, Protons, Soil chemistry, Quercus, Volatile Organic Compounds analysis

Abstract

Many belowground processes, such as soil respiration and soil-atmosphere VOC (volatile organic compounds) exchange, are closely linked to soil microbiological processes. However, little is known about how changes in plant species cover, i.e. after plant invasion, alter these soil processes. In particular, the response of soil VOC emissions to plant invasion is not well understood. We analysed soil VOC emissions and soil respiration of a Mediterranean cork oak (Quercus suber) ecosystem, comparing soil VOC emissions from a non-invaded Q. suber woodland to one invaded by the shrub Cistus ladanifer. Soil VOC emissions were determined under controlled conditions using online proton-transfer time-of-flight mass spectrometry. Net soil VOC emissions were measured by exposing soils with or without litter to different temperature and soil moisture conditions. Soil VOC emissions were sensitive to C. ladanifer invasion. Highest net emission rates were determined for oxygenated VOC (acetaldehyde, acetone, methanol, acetic acid), and high temperatures enhanced total VOC emissions. Invasion affected the relative contribution of various VOC. Methanol and acetaldehyde were emitted exclusively from litter and were associated with the non-invaded sites. In contrast, acetone emissions increased in response to shrub presence. Interestingly, low soil moisture enhanced the effect of shrub invasion on VOC emissions. Our results indicate that shrub invasion substantially influences important belowground processes in cork oak ecosystems, in particular soil VOC emissions. High soil moisture is suggested to diminish the invasion effect through a moisture-induced increase in microbial decomposition rates of soil VOC., (© 2022 The Authors. Plant Biology published by John Wiley & Sons Ltd on behalf of German Society for Plant Sciences, Royal Botanical Society of the Netherlands.)

Published

2022

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

Author

Price JN, Sitters J, Ohlert T, Tognetti PM, Brown CS, Seabloom EW, Borer ET, Prober SM, Bakker ES, MacDougall AS, Yahdjian L, Gruner DS, Olde Venterink H, Barrio IC, Graff P, Bagchi S, Arnillas CA, Bakker JD, Blumenthal DM, Boughton EH, Brudvig LA, Bugalho MN, Cadotte MW, Caldeira MC, Dickman CR, Donohue I, Grégory S, Hautier Y, Jónsdóttir IS, Lannes LS, McCulley RL, Moore JL, Power SA, Risch AC, Schütz M, Standish R, Stevens CJ, Veen GF, Virtanen R, and Wardle GM

Subjects

Animals, Mammals, Plants, Soil, Biodiversity, Herbivory

Abstract

Ecological models predict that the effects of mammalian herbivore exclusion on plant diversity depend on resource availability and plant exposure to ungulate grazing over evolutionary time. Using an experiment replicated in 57 grasslands on six continents, with contrasting evolutionary history of grazing, we tested how resources (mean annual precipitation and soil nutrients) determine herbivore exclusion effects on plant diversity, richness and evenness. Here we show that at sites with a long history of ungulate grazing, herbivore exclusion reduced plant diversity by reducing both richness and evenness and the responses of richness and diversity to herbivore exclusion decreased with mean annual precipitation. At sites with a short history of grazing, the effects of herbivore exclusion were not related to precipitation but differed for native and exotic plant richness. Thus, plant species' evolutionary history of grazing continues to shape the response of the world's grasslands to changing mammalian herbivory., (© 2022. The Author(s), under exclusive licence to Springer Nature Limited.)

Published

2022

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

Author

Chen Q, Wang S, Seabloom EW, MacDougall AS, Borer ET, Bakker JD, Donohue I, Knops JMH, Morgan JW, Carroll O, Crawley M, Bugalho MN, Power SA, Eskelinen A, Virtanen R, Risch AC, Schütz M, Stevens C, Caldeira MC, Bagchi S, Alberti J, and Hautier Y

Subjects

Biodiversity, Ecosystem, Nutrients, Grassland, Herbivory

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., (© 2022 John Wiley & Sons Ltd.)

Published

2022

21. Species loss due to nutrient addition increases with spatial scale in global grasslands.

Author

Seabloom EW, Batzer E, Chase JM, Stanley Harpole W, Adler PB, Bagchi S, Bakker JD, Barrio IC, Biederman L, Boughton EH, Bugalho MN, Caldeira MC, Catford JA, Daleo P, Eisenhauer N, Eskelinen A, Haider S, Hallett LM, Svala Jónsdóttir I, Kimmel K, Kuhlman M, MacDougall A, Molina CD, Moore JL, Morgan JW, Muthukrishnan R, Ohlert T, Risch AC, Roscher C, Schütz M, Sonnier G, Tognetti PM, Virtanen R, Wilfahrt PA, and Borer ET

Subjects

Ecosystem, Herbivory, Nutrients, Biodiversity, Grassland

Abstract

The effects of altered nutrient supplies and herbivore density on species diversity vary with spatial scale, because coexistence mechanisms are scale dependent. This scale dependence may alter the shape of the species-area relationship (SAR), which can be described by changes in species richness (S) as a power function of the sample area (A): S = cA z , where c and z are constants. We analysed the effects of experimental manipulations of nutrient supply and herbivore density on species richness across a range of scales (0.01-75 m 2 ) at 30 grasslands in 10 countries. We found that nutrient addition reduced the number of species that could co-occur locally, indicated by the SAR intercepts (log c), but did not affect the SAR slopes (z). As a result, proportional species loss due to nutrient enrichment was largely unchanged across sampling scales, whereas total species loss increased over threefold across our range of sampling scales., (© 2021 John Wiley & Sons Ltd.)

Published

2021

22. Nonlinear plant-plant interactions modulate impact of extreme drought and recovery on a Mediterranean ecosystem.

Author

Haberstroh S, Caldeira MC, Lobo-do-Vale R, Martins JI, Moemken J, Pinto JG, and Werner C

Subjects

Ecosystem, Trees, Water, Droughts, Quercus

Abstract

Interaction effects of different stressors, such as extreme drought and plant invasion, can have detrimental effects on ecosystem functioning and recovery after drought. With ongoing climate change and increasing plant invasion, there is an urgent need to predict the short- and long-term interaction impacts of these stressors on ecosystems. We established a combined precipitation exclusion and shrub invasion (Cistus ladanifer) experiment in a Mediterranean cork oak (Quercus suber) ecosystem with four treatments: (1) Q. suber control; (2) Q. suber with rain exclusion; (3) Q. suber invaded by shrubs; and (4) Q. suber with rain exclusion and shrub invasion. As key parameter, we continuously measured ecosystem water fluxes. In an average precipitation year, the interaction effects of both stressors were neutral. However, the combination of imposed drought and shrub invasion led to amplifying interaction effects during an extreme drought by strongly reducing tree transpiration. Contrarily, the imposed drought reduced the competitiveness of the shrubs in the following recovery period, which buffered the negative effects of shrub invasion on Q. suber. Our results demonstrate the highly dynamic and nonlinear effects of interacting stressors on ecosystems and urges for further investigations on biotic interactions in a context of climate change pressures., (© 2021 The Authors New Phytologist © 2021 New Phytologist Foundation.)

Published

2021

23. Negative effects of nitrogen override positive effects of phosphorus on grassland legumes worldwide.

Author

Tognetti PM, Prober SM, Báez S, Chaneton EJ, Firn J, Risch AC, Schuetz M, Simonsen AK, Yahdjian L, Borer ET, Seabloom EW, Arnillas CA, Bakker JD, Brown CS, Cadotte MW, Caldeira MC, Daleo P, Dwyer JM, Fay PA, Gherardi LA, Hagenah N, Hautier Y, Komatsu KJ, McCulley RL, Price JN, Standish RJ, Stevens CJ, Wragg PD, and Sankaran M

Subjects

Biodiversity, Biomass, Fabaceae drug effects, Probability, Fabaceae physiology, Grassland, Internationality, Nitrogen pharmacology, Phosphorus pharmacology

Abstract

Anthropogenic nutrient enrichment is driving global biodiversity decline and modifying ecosystem functions. Theory suggests that plant functional types that fix atmospheric nitrogen have a competitive advantage in nitrogen-poor soils, but lose this advantage with increasing nitrogen supply. By contrast, the addition of phosphorus, potassium, and other nutrients may benefit such species in low-nutrient environments by enhancing their nitrogen-fixing capacity. We present a global-scale experiment confirming these predictions for nitrogen-fixing legumes (Fabaceae) across 45 grasslands on six continents. Nitrogen addition reduced legume cover, richness, and biomass, particularly in nitrogen-poor soils, while cover of non-nitrogen-fixing plants increased. The addition of phosphorous, potassium, and other nutrients enhanced legume abundance, but did not mitigate the negative effects of nitrogen addition. Increasing nitrogen supply thus has the potential to decrease the diversity and abundance of grassland legumes worldwide regardless of the availability of other nutrients, with consequences for biodiversity, food webs, ecosystem resilience, and genetic improvement of protein-rich agricultural plant species., Competing Interests: The authors declare no competing interest.

Published

2021

24. Fertilized graminoids intensify negative drought effects on grassland productivity.

Author

Van Sundert K, Arfin Khan MAS, Bharath S, Buckley YM, Caldeira MC, Donohue I, Dubbert M, Ebeling A, Eisenhauer N, Eskelinen A, Finn A, Gebauer T, Haider S, Hansart A, Jentsch A, Kübert A, Nijs I, Nock CA, Nogueira C, Porath-Krause AJ, Radujković D, Raynaud X, Risch AC, Roscher C, Scherer-Lorenzen M, Schuchardt MA, Schütz M, Siebert J, Sitters J, Spohn M, Virtanen R, Werner C, Wilfahrt P, and Vicca S

Subjects

Biodiversity, Biomass, Ecosystem, Europe, Droughts, Grassland

Abstract

Droughts can strongly affect grassland productivity and biodiversity, but responses differ widely. Nutrient availability may be a critical factor explaining this variation, but is often ignored in analyses of drought responses. Here, we used a standardized nutrient addition experiment covering 10 European grasslands to test if full-factorial nitrogen, phosphorus, and potassium addition affected plant community responses to inter-annual variation in drought stress and to the extreme summer drought of 2018 in Europe. We found that nutrient addition amplified detrimental drought effects on community aboveground biomass production. Drought effects also differed between functional groups, with a negative effect on graminoid but not forb biomass production. Our results imply that eutrophication in grasslands, which promotes dominance of drought-sensitive graminoids over forbs, amplifies detrimental drought effects. In terms of climate change adaptation, agricultural management would benefit from taking into account differential drought impacts on fertilized versus unfertilized grasslands, which differ in ecosystem services they provide to society., (© 2021 John Wiley & Sons Ltd.)

Published

2021

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

Author

Hautier Y, Zhang P, Loreau M, Wilcox KR, Seabloom EW, Borer ET, Byrnes JEK, Koerner SE, Komatsu KJ, Lefcheck JS, Hector A, Adler PB, Alberti J, Arnillas CA, Bakker JD, Brudvig LA, Bugalho MN, Cadotte M, Caldeira MC, Carroll O, Crawley M, Collins SL, Daleo P, Dee LE, Eisenhauer N, Eskelinen A, Fay PA, Gilbert B, Hansar A, Isbell F, Knops JMH, MacDougall AS, McCulley RL, Moore JL, Morgan JW, Mori AS, Peri PL, Pos ET, Power SA, Price JN, Reich PB, Risch AC, Roscher C, Sankaran M, Schütz M, Smith M, Stevens C, Tognetti PM, Virtanen R, Wardle GM, Wilfahrt PA, and Wang S

Published

2021

26. Author Correction: Nutrients cause grassland biomass to outpace herbivory.

Author

Borer ET, Harpole WS, Adler PB, Arnillas CA, Bugalho MN, Cadotte MW, Caldeira MC, Campana S, Dickman CR, Dickson TL, Donohue I, Eskelinen A, Firn JL, Graff P, Gruner DS, Heckman RW, Koltz AM, Komatsu KJ, Lannes LS, MacDougall AS, Martina JP, Moore JL, Mortensen B, Ochoa-Hueso R, Venterink HO, Power SA, Price JN, Risch AC, Sankaran M, Schütz M, Sitters J, Stevens CJ, Virtanen R, Wilfahrt PA, and Seabloom EW

Published

2021

27. Global impacts of fertilization and herbivore removal on soil net nitrogen mineralization are modulated by local climate and soil properties.

Author

Risch AC, Zimmermann S, Moser B, Schütz M, Hagedorn F, Firn J, Fay PA, Adler PB, Biederman LA, Blair JM, Borer ET, Broadbent AAD, Brown CS, Cadotte MW, Caldeira MC, Davies KF, di Virgilio A, Eisenhauer N, Eskelinen A, Knops JMH, MacDougall AS, McCulley RL, Melbourne BA, Moore JL, Power SA, Prober SM, Seabloom EW, Siebert J, Silveira ML, Speziale KL, Stevens CJ, Tognetti PM, Virtanen R, Yahdjian L, and Ochoa-Hueso R

Subjects

Animals, Ecosystem, Fertilization, Grassland, Herbivory, Humans, Nitrogen analysis, Soil

Abstract

Soil nitrogen (N) availability is critical for grassland functioning. However, human activities have increased the supply of biologically limiting nutrients, and changed the density and identity of mammalian herbivores. These anthropogenic changes may alter net soil N mineralization (soil net N min ), that is, the net balance between N mineralization and immobilization, which could severely impact grassland structure and functioning. Yet, to date, little is known about how fertilization and herbivore removal individually, or jointly, affect soil net N min across a wide range of grasslands that vary in soil and climatic properties. Here we collected data from 22 grasslands on five continents, all part of a globally replicated experiment, to assess how fertilization and herbivore removal affected potential (laboratory-based) and realized (field-based) soil net N min . Herbivore removal in the absence of fertilization did not alter potential and realized soil net N min . However, fertilization alone and in combination with herbivore removal consistently increased potential soil net N min. Realized soil net N min , in contrast, significantly decreased in fertilized plots where herbivores were removed. Treatment effects on potential and realized soil net N min were contingent on site-specific soil and climatic properties. Fertilization effects on potential soil net N min were larger at sites with higher mean annual precipitation (MAP) and temperature of the wettest quarter (T.q.wet). Reciprocally, realized soil net N min declined most strongly with fertilization and herbivore removal at sites with lower MAP and higher T.q.wet. In summary, our findings show that anthropogenic nutrient enrichment, herbivore exclusion and alterations in future climatic conditions can negatively impact soil net N min across global grasslands under realistic field conditions. This is an important context-dependent knowledge for grassland management worldwide., (© 2020 John Wiley & Sons Ltd.)

Published

2020

28. Nutrients cause grassland biomass to outpace herbivory.

Author

Borer ET, Harpole WS, Adler PB, Arnillas CA, Bugalho MN, Cadotte MW, Caldeira MC, Campana S, Dickman CR, Dickson TL, Donohue I, Eskelinen A, Firn JL, Graff P, Gruner DS, Heckman RW, Koltz AM, Komatsu KJ, Lannes LS, MacDougall AS, Martina JP, Moore JL, Mortensen B, Ochoa-Hueso R, Olde Venterink H, Power SA, Price JN, Risch AC, Sankaran M, Schütz M, Sitters J, Stevens CJ, Virtanen R, Wilfahrt PA, and Seabloom EW

Subjects

Confidence Intervals, Fertilizers, Time Factors, Biomass, Grassland, Herbivory physiology, Nitrogen analysis, Phosphorus analysis

Abstract

Human activities are transforming grassland biomass via changing climate, elemental nutrients, and herbivory. Theory predicts that food-limited herbivores will consume any additional biomass stimulated by nutrient inputs ('consumer-controlled'). Alternatively, nutrient supply is predicted to increase biomass where herbivores alter community composition or are limited by factors other than food ('resource-controlled'). Using an experiment replicated in 58 grasslands spanning six continents, we show that nutrient addition and vertebrate herbivore exclusion each caused sustained increases in aboveground live biomass over a decade, but consumer control was weak. However, at sites with high vertebrate grazing intensity or domestic livestock, herbivores consumed the additional fertilization-induced biomass, supporting the consumer-controlled prediction. Herbivores most effectively reduced the additional live biomass at sites with low precipitation or high ambient soil nitrogen. Overall, these experimental results suggest that grassland biomass will outstrip wild herbivore control as human activities increase elemental nutrient supply, with widespread consequences for grazing and fire risk.

Published

2020

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

Author

Hautier Y, Zhang P, Loreau M, Wilcox KR, Seabloom EW, Borer ET, Byrnes JEK, Koerner SE, Komatsu KJ, Lefcheck JS, Hector A, Adler PB, Alberti J, Arnillas CA, Bakker JD, Brudvig LA, Bugalho MN, Cadotte M, Caldeira MC, Carroll O, Crawley M, Collins SL, Daleo P, Dee LE, Eisenhauer N, Eskelinen A, Fay PA, Gilbert B, Hansar A, Isbell F, Knops JMH, MacDougall AS, McCulley RL, Moore JL, Morgan JW, Mori AS, Peri PL, Pos ET, Power SA, Price JN, Reich PB, Risch AC, Roscher C, Sankaran M, Schütz M, Smith M, Stevens C, Tognetti PM, Virtanen R, Wardle GM, Wilfahrt PA, and Wang S

Subjects

Biodiversity, Biomass, Fertilization, Models, Biological, Plants, Biota, Ecosystem, Eutrophication, Grassland

Abstract

Eutrophication is a widespread environmental change that usually reduces the stabilizing effect of plant diversity on productivity in local communities. Whether this effect is scale dependent remains to be elucidated. Here, we determine the relationship between plant diversity and temporal stability of productivity for 243 plant communities from 42 grasslands across the globe and quantify the effect of chronic fertilization on these relationships. Unfertilized local communities with more plant species exhibit greater asynchronous dynamics among species in response to natural environmental fluctuations, resulting in greater local stability (alpha stability). Moreover, neighborhood communities that have greater spatial variation in plant species composition within sites (higher beta diversity) have greater spatial asynchrony of productivity among communities, resulting in greater stability at the larger scale (gamma stability). Importantly, fertilization consistently weakens the contribution of plant diversity to both of these stabilizing mechanisms, thus diminishing the positive effect of biodiversity on stability at differing spatial scales. Our findings suggest that preserving grassland functional stability requires conservation of plant diversity within and among ecological communities.

Published

2020

30. Microbial processing of plant remains is co-limited by multiple nutrients in global grasslands.

Author

Ochoa-Hueso R, Borer ET, Seabloom EW, Hobbie SE, Risch AC, Collins SL, Alberti J, Bahamonde HA, Brown CS, Caldeira MC, Daleo P, Dickman CR, Ebeling A, Eisenhauer N, Esch EH, Eskelinen A, Fernández V, Güsewell S, Gutierrez-Larruga B, Hofmockel K, Laungani R, Lind E, López A, McCulley RL, Moore JL, Peri PL, Power SA, Price JN, Prober SM, Roscher C, Sarneel JM, Schütz M, Siebert J, Standish RJ, Velasco Ayuso S, Virtanen R, Wardle GM, Wiehl G, Yahdjian L, and Zamin T

Subjects

Carbon, Nitrogen analysis, Nutrients, Soil, Ecosystem, Grassland

Abstract

Microbial processing of aggregate-unprotected organic matter inputs is key for soil fertility, long-term ecosystem carbon and nutrient sequestration and sustainable agriculture. We investigated the effects of adding multiple nutrients (nitrogen, phosphorus and potassium plus nine essential macro- and micro-nutrients) on decomposition and biochemical transformation of standard plant materials buried in 21 grasslands from four continents. Addition of multiple nutrients weakly but consistently increased decomposition and biochemical transformation of plant remains during the peak-season, concurrent with changes in microbial exoenzymatic activity. Higher mean annual precipitation and lower mean annual temperature were the main climatic drivers of higher decomposition rates, while biochemical transformation of plant remains was negatively related to temperature of the wettest quarter. Nutrients enhanced decomposition most at cool, high rainfall sites, indicating that in a warmer and drier future fertilized grassland soils will have an even more limited potential for microbial processing of plant remains., (© 2020 John Wiley & Sons Ltd.)

Published

2020

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

Author

Firn J, McGree JM, Harvey E, Flores-Moreno H, Schütz M, Buckley YM, Borer ET, Seabloom EW, La Pierre KJ, MacDougall AM, Prober SM, Stevens CJ, Sullivan LL, Porter E, Ladouceur E, Allen C, Moromizato KH, Morgan JW, Harpole WS, Hautier Y, Eisenhauer N, Wright JP, Adler PB, Arnillas CA, Bakker JD, Biederman L, Broadbent AAD, Brown CS, Bugalho MN, Caldeira MC, Cleland EE, Ebeling A, Fay PA, Hagenah N, Kleinhesselink AR, Mitchell R, Moore JL, Nogueira C, Peri PL, Roscher C, Smith MD, Wragg PD, and Risch AC

Abstract

An amendment to this paper has been published and can be accessed via a link at the top of the paper.

Published

2020

32. Shifted phenology in the pine processionary moth affects the outcome of tree-insect interaction.

Author

Rocha S, Caldeira MC, Burban C, Kerdelhué C, and Branco M

Subjects

Animals, Larva growth & development, Male, Osmotic Pressure, Adaptation, Biological, Herbivory, Moths growth & development, Pinus physiology, Water physiology

Abstract

In the Mediterranean and temperate regions, an increase in the frequency and intensity of drought events has been recorded, probably due to climate change. In consequence, trees will more frequently experience hydric stress, a condition that can be expected to affect insect-tree interactions, while adaptation mechanisms may be further in course. The effect of tree water stress on the performance of two allochronic populations of Thaumetopoea pityocampa was here studied. Namely, we compared a unique population of this insect, in which the larvae develop in the summer (SP), with the typical population having winter larval development (WP), to test the adaptation hypothesis to host plant status. Larvae of each population were fed on needles of young potted Pinus pinaster plants under two water supply regimes: (i) well-watered (control) and (ii) subjected to 3 months of drought stress. Compared to control, stressed plants had higher amounts of soluble sugars, phenols, and higher C/N ratio, whereas water content and chlorophylls concentrations were lower. In general, T. pityocampa larvae had lower performances on water-stressed plants, as shown by lower survival rates, lower needle consumption, and longer development times. Yet, the detrimental effects of tree stress were only significant for the WP larvae, while SP larvae were able to overcome such conditions. Results demonstrate that tree water stress can negatively affect T. pityocampa populations. Furthermore, the evidence is also provided that responses to the physiological condition of the host trees may occur at the population level, as a result of adaptation mechanisms driven by climate change.

Published

2020

33. Influence of health care practices on the burden of caregiver mothers.

Author

Ferreira FY, Xavier MC, Baldini PR, Ferreira LTL, Lima RAG, and Okido ACC

Subjects

Adult, Caregivers psychology, Caregivers statistics & numerical data, Cross-Sectional Studies, Delivery of Health Care statistics & numerical data, Family Nursing methods, Female, Humans, Male, Middle Aged, Mothers statistics & numerical data, Psychometrics instrumentation, Psychometrics methods, Surveys and Questionnaires, Delivery of Health Care standards, Mothers psychology

Abstract

Objectives: to explore the influence of health care practices on the burden of caregiver mothers of children with special health needs., Methods: observational, analytical, cross-sectional, quantitative study. Participation of 100 caregiver mothers, who responded the following instruments: characterization instrument; Burden Interview for Informal Caregivers; Perceptions of Family-Centered Care - Parents version; Evaluation Instrument for Primary Care - Child Version. For statistical analysis, were used the Spearman's Correlation and univariate and multivariate linear regression analysis., Results: the mean burden score was 47.99. There was a negative correlation between the burden and the domains of collaboration and support of the Perceptions of Family-Centered Care scale. In the multivariate linear regression model, the longitudinality variable maintained a significant relation with the burden (p = 0.023)., Conclusions: a shared, longitudinal and integrated care between families and health services can ease the burden of caregiver mothers.

Published

2020

34. Soil net nitrogen mineralisation across global grasslands.

Author

Risch AC, Zimmermann S, Ochoa-Hueso R, Schütz M, Frey B, Firn JL, Fay PA, Hagedorn F, Borer ET, Seabloom EW, Harpole WS, Knops JMH, McCulley RL, Broadbent AAD, Stevens CJ, Silveira ML, Adler PB, Báez S, Biederman LA, Blair JM, Brown CS, Caldeira MC, Collins SL, Daleo P, di Virgilio A, Ebeling A, Eisenhauer N, Esch E, Eskelinen A, Hagenah N, Hautier Y, Kirkman KP, MacDougall AS, Moore JL, Power SA, Prober SM, Roscher C, Sankaran M, Siebert J, Speziale KL, Tognetti PM, Virtanen R, Yahdjian L, and Moser B

Abstract

Soil nitrogen mineralisation (N min ), the conversion of organic into inorganic N, is important for productivity and nutrient cycling. The balance between mineralisation and immobilisation (net N min ) varies with soil properties and climate. However, because most global-scale assessments of net N min are laboratory-based, its regulation under field-conditions and implications for real-world soil functioning remain uncertain. Here, we explore the drivers of realised (field) and potential (laboratory) soil net N min across 30 grasslands worldwide. We find that realised N min is largely explained by temperature of the wettest quarter, microbial biomass, clay content and bulk density. Potential N min only weakly correlates with realised N min , but contributes to explain realised net N min when combined with soil and climatic variables. We provide novel insights of global realised soil net N min and show that potential soil net N min data available in the literature could be parameterised with soil and climate data to better predict realised N min .

Published

2019

35. Sensory characterization and acceptance of coffee brews of C. arabica and C. canephora blended with steamed defective coffee.

Author

Kalschne DL, Biasuz T, De Conti AJ, Viegas MC, Corso MP, and Benassi MT

Subjects

Adolescent, Adult, Female, Food Preferences, Humans, Male, Middle Aged, Steam, Young Adult, Coffea chemistry, Coffee chemistry, Cooking methods, Odorants analysis

Abstract

Steam treatment has been reported as an alternative to improve the cup quality of coffee; in this research, it was applied to C. canephora defective coffee. The aim of the study was to evaluate the sensory perception of steamed defective C. canephora coffee (SDC) in roasted coffee blends, by Flash Profile and acceptance tests. SDC was produced by steam treatment (5 bar, 16 min) and a standardized roasting process was applied to all coffees. Four samples were prepared as follows: AB (100% C. arabica), CB (100% C. canephora), ASDB and CSDB, both blends with 50% of SDC and C. arabica or C. canephora, respectively. Coffee brews were prepared through percolation (50 g coffee/500 mL water at 92 °C). Coffee species were more relevant in sensory discrimination of the brews than SDC addition. AB and ASDB were characterized as having brown color, fruity/herbal/green bean aroma and coffee/residual coffee flavor. CB and CSDB were described as viscous, with foam, black color, bitter taste, and aroma/taste related to the roasting process. With SDC addition, typical sensory characteristics of each species were maintained, but the intensity of the attributes was reduced. Coffee brews blends with 50% SDC C. canephora are well accepted., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published

2019

36. Is Chickpea a Potential Substitute for Soybean? Phenolic Bioactives and Potential Health Benefits.

Author

de Camargo AC, Favero BT, Morzelle MC, Franchin M, Alvarez-Parrilla E, de la Rosa LA, Geraldi MV, Maróstica Júnior MR, Shahidi F, and Schwember AR

Subjects

Animals, Anti-Inflammatory Agents chemistry, Anti-Inflammatory Agents pharmacology, Antioxidants chemistry, Antioxidants pharmacology, Humans, Isoflavones chemistry, Isoflavones pharmacology, Phytochemicals chemistry, Phytochemicals pharmacology, Anti-Inflammatory Agents analysis, Antioxidants analysis, Cicer chemistry, Isoflavones analysis, Phytochemicals analysis, Glycine max chemistry

Abstract

Legume seeds are rich sources of protein, fiber, and minerals. In addition, their phenolic compounds as secondary metabolites render health benefits beyond basic nutrition. Lowering apolipoprotein B secretion from HepG2 cells and decreasing the level of low-density lipoprotein (LDL)-cholesterol oxidation are mechanisms related to the prevention of cardiovascular diseases (CVD). Likewise, low-level chronic inflammation and related disorders of the immune system are clinical predictors of cardiovascular pathology. Furthermore, DNA-damage signaling and repair are crucial pathways to the etiology of human cancers. Along CVD and cancer, the prevalence of obesity and diabetes is constantly increasing. Screening the ability of polyphenols in inactivating digestive enzymes is a good option in pre-clinical studies. In addition, in vivo studies support the role of polyphenols in the prevention and/or management of diabetes and obesity. Soybean, a well-recognized source of phenolic isoflavones, exerts health benefits by decreasing oxidative stress and inflammation related to the above-mentioned chronic ailments. Similar to soybeans, chickpeas are good sources of nutrients and phenolic compounds, especially isoflavones. This review summarizes the potential of chickpea as a substitute for soybean in terms of health beneficial outcomes. Therefore, this contribution may guide the industry in manufacturing functional foods and/or ingredients by using an undervalued feedstock.

Published

2019

37. A pool-weighted perspective on the two-water-worlds hypothesis.

Author

Dubbert M, Caldeira MC, Dubbert D, and Werner C

Subjects

Biological Transport, Cistus metabolism, Deuterium metabolism, Ecosystem, Groundwater chemistry, Oxygen Isotopes metabolism, Plant Roots metabolism, Quercus metabolism, Rain, Seasons, Soil chemistry, Vapor Pressure, Xylem metabolism, Models, Biological, Water metabolism

Abstract

The 'two-water-worlds' hypothesis is based on stable isotope differences in stream, soil and xylem waters in dual isotope space. It postulates no connectivity between bound and mobile soil waters, and preferential plant water uptake of bound soil water sources. We tested the pool-weighted impact of isotopically distinct water pools for hydrological cycling, the influence of species-specific water use and the degree of ecohydrological separation. We combined stable isotope analysis (δ 18 O and δ 2 H) of ecosystem water pools of precipitation, groundwater, soil and xylem water of two distinct species (Quercus suber, Cistus ladanifer) with observations of soil water contents and sap flow. Shallow soil water was evaporatively enriched during dry-down periods, but enrichment faded strongly with depth and upon precipitation events. Despite clearly distinct water sources and water-use strategies, both species displayed a highly opportunistic pattern of root water uptake. Here we offer an alternative explanation, showing that the isotopic differences between soil and plant water vs groundwater can be fully explained by spatio-temporal dynamics. Pool weighting the contribution of evaporatively enriched soil water reveals only minor annual impacts of these sources to ecosystem water cycling (c. 11% of bulk soil water and c. 14% of transpired water)., (© 2019 The Authors. New Phytologist © 2019 New Phytologist Trust.)

Published

2019

38. Leaf nutrients, not specific leaf area, are consistent indicators of elevated nutrient inputs.

Author

Firn J, McGree JM, Harvey E, Flores-Moreno H, Schütz M, Buckley YM, Borer ET, Seabloom EW, La Pierre KJ, MacDougall AM, Prober SM, Stevens CJ, Sullivan LL, Porter E, Ladouceur E, Allen C, Moromizato KH, Morgan JW, Harpole WS, Hautier Y, Eisenhauer N, Wright JP, Adler PB, Arnillas CA, Bakker JD, Biederman L, Broadbent AAD, Brown CS, Bugalho MN, Caldeira MC, Cleland EE, Ebeling A, Fay PA, Hagenah N, Kleinhesselink AR, Mitchell R, Moore JL, Nogueira C, Peri PL, Roscher C, Smith MD, Wragg PD, and Risch AC

Subjects

Magnoliopsida anatomy & histology, Magnoliopsida physiology, Nutrients metabolism, Plant Leaves anatomy & histology, Grassland, Plant Leaves physiology, 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

39. A prolonged dry season and nitrogen deposition interactively affect CO 2 fluxes in an annual Mediterranean grassland.

Author

Nogueira C, Werner C, Rodrigues A, and Caldeira MC

Subjects

Climate Change, Plants metabolism, Portugal, Seasons, Air Pollutants metabolism, Carbon Dioxide metabolism, Droughts, Grassland, Nitrogen metabolism, Water metabolism

Abstract

Mediterranean annual grasslands are species-diverse ecosystems of high economic and ecological value. CO 2 and water fluxes in these grasslands are triggered by the first rains in autumn, after a long hot and dry summer. Climate change scenarios project altered rainfall patterns, such as prolonged dry season into the autumn, while simultaneously nitrogen (N) deposition is increasing globally. However, how these global change drivers will interact to affect Mediterranean grassland CO 2 , water fluxes and productivity is still unclear. In a greenhouse experiment, we subjected the seedbank of an annual Mediterranean grassland to a factorial treatment, by prolonging the dry season by 0 days (i.e. no autumn drought), 50 days and 100 days and crossing these drought treatments with two levels of N deposition: no N and N addition. A delayed onset of the rain season, i.e., a prolonged dry season, induced lower CO 2 and water fluxes throughout the growing season and a lower aboveground biomass by the end of the study period. However, N addition attenuated the effects on NEE, Reco and GPP, but did not affect aboveground biomass or functional group composition. A prolonged dry season also lowered the productivity of forbs, the dominant functional group in our grassland. Our results anticipate important effects of interacting global change drivers on Mediterranean grassland functioning., (Copyright © 2018. Published by Elsevier B.V.)

Published

2019

40. Unravelling associations between tree-seedling performance, herbivory, competition, and facilitation in high nature value farmlands.

Author

Vaz PG, Bugalho MN, Fedriani JM, Branco M, Lecomte X, Nogueira C, and Caldeira MC

Abstract

Herbivory, plant facilitation, and competition have complex impacts on tree regeneration which are seldom investigated together. Grazing exclosure experiments have allowed quantification of the effects of large herbivores on tree regeneration dynamics but have often ignored the effect of herbivorous insects. We experimentally tested how folivory (percentage of leaf damaged by insects) and microenvironment (tree canopy cover and herbs) jointly alter performance (growth and survival) of seedlings of two dominant Mediterranean oak-species within ungulate exclosures in a 3-year field study. An agroforestry system dominated by cork oak (Quercus suber) and holm oak (Q. rotundifolia) was assessed in south-east Portugal. We aimed also to determine whether the two oak species differed in the interdependences between folivory, microenvironment, covaring factors, and seedling performance. Unexpectedly, under the low-moderate insect defoliation, growth and survival of cork and holm oak seedlings were positively associated with herbivore damage. Herb removal increased oak folivory by 1.4 times. Herb removal was also positively associated with growth, directly and indirectly through its negative effect on oak folivory. Tree canopy favored insect folivory upon cork oak seedlings directly and upon holm oak indirectly via decreasing light availability. Folivory was threefold greater upon cork than upon holm oak-seedlings. Our study shows that tree canopy, herbs, and covarying factors can affect cork and holm oak-seedling performances through complex pathways, which markedly differ for the two species. The combined effect of insect herbivory and positive and negative plant-plant interactions need to be integrated into future tree regeneration efforts toward tackling the regeneration crisis of oak agroforestry systems of the Mediterranean., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published

2019

41. The timing of drought coupled with pathogens may boost tree mortality.

Author

Caldeira MC

Subjects

Ecosystem, Host-Pathogen Interactions, Humans, Seasons, Droughts, Trees

Published

2019

42. Terpenoid Emissions of Two Mediterranean Woody Species in Response to Drought Stress.

Author

Haberstroh S, Kreuzwieser J, Lobo-do-Vale R, Caldeira MC, Dubbert M, and Werner C

Abstract

Drought is a major environmental constrain affecting plant performance and survival, particularly in Mediterranean ecosystems. Terpenoids may play a protective role under these conditions, however, observations of drought effects on plant terpenoid emissions are controversial ranging from decreased emissions to unaffected or increased release of terpenoids. In the present study we investigated terpenoid emissions of cork oak ( Quercus suber ) and gum rockrose ( Cistus ladanifer ) in response to summer drought stress in 2017. Pre-dawn leaf water potential (Ψ PD ) decreased from -0.64 to -1.72 MPa in Q. suber and from -1.69 to -4.05 MPa in C. ladanifer , indicating a transition from mild to severe drought along summer. Total terpenoid emissions decreased with drought, but differed significantly between species ( p < 0.001) and in response to Ψ PD , air temperature and assimilation rates. C. ladanifer emitted a large variety of >75 compounds comprising monoterpenes, sesquiterpenes and even diterpenes, which strongly decreased from 1.37 ± 0.23 μg g -1 h -1 to 0.40 ± 0.08 μg g -1 h -1 ( p < 0.001) in response to drought. Total emission rates were positively correlated to air temperature ( p < 0.001). C. ladanifer behavior points toward terpenoid leaf storage depletion and reduced substrate availability for terpenoid synthesis with increasing drought, most likely accelerated by high air temperatures. Q. suber emitted mainly monoterpenes and emissions declined significantly from June (0.50 ± 0.08 μg g -1 h -1 ) to August (0.29 ± 0.02 μg g -1 h -1 ) ( p < 0.01). Emission rates were weakly correlated with net assimilation rates ( R 2 = 0.19, p < 0.001), but did not respond strongly to Ψ PD and air temperature. Early onset of drought in 2017 most likely reduced plant metabolism in Q. suber , resulting in diminished, but stable terpenoid fluxes. Calculation of standard emission factors (at 30°C) revealed contrasting emission patterns of decreasing, unaffected, or increasing fluxes of single terpenoid compounds. Unaffected or drought-enhanced emissions of compounds such as α-pinene, camphene or manoyl oxide may point toward a specific role of these terpenoids in abiotic stress adaptation. In conclusion, these results suggest a strong negative, but species- and compound-specific effect of severe drought on terpenoid fluxes in Mediterranean ecosystems.

Published

2018

43. Tree differences in primary and secondary growth drive convergent scaling in leaf area to sapwood area across Europe.

Author

Petit G, von Arx G, Kiorapostolou N, Lechthaler S, Prendin AL, Anfodillo T, Caldeira MC, Cochard H, Copini P, Crivellaro A, Delzon S, Gebauer R, Gričar J, Grönholm L, Hölttä T, Jyske T, Lavrič M, Lintunen A, Lobo-do-Vale R, Peltoniemi M, Peters RL, Robert EMR, Roig Juan S, Senfeldr M, Steppe K, Urban J, Van Camp J, and Sterck F

Subjects

Europe, Geography, Models, Statistical, Species Specificity, Trees anatomy & histology, Xylem anatomy & histology, Plant Leaves anatomy & histology, Trees growth & development, Wood anatomy & histology

Abstract

Trees scale leaf (A L ) and xylem (A X ) areas to couple leaf transpiration and carbon gain with xylem water transport. Some species are known to acclimate in A L  : A X balance in response to climate conditions, but whether trees of different species acclimate in A L  : A X in similar ways over their entire (continental) distributions is unknown. We analyzed the species and climate effects on the scaling of A L vs A X in branches of conifers (Pinus sylvestris, Picea abies) and broadleaved (Betula pendula, Populus tremula) sampled across a continental wide transect in Europe. Along the branch axis, A L and A X change in equal proportion (isometric scaling: b ˜ 1) as for trees. Branches of similar length converged in the scaling of A L vs A X with an exponent of b = 0.58 across European climates irrespective of species. Branches of slow-growing trees from Northern and Southern regions preferentially allocated into new leaf rather than xylem area, with older xylem rings contributing to maintaining total xylem conductivity. In conclusion, trees in contrasting climates adjust their functional balance between water transport and leaf transpiration by maintaining biomass allocation to leaves, and adjusting their growth rate and xylem production to maintain xylem conductance., (© 2018 The Authors. New Phytologist © 2018 New Phytologist Trust.)

Published

2018

44. Volatile diterpene emission by two Mediterranean Cistaceae shrubs.

Author

Yáñez-Serrano AM, Fasbender L, Kreuzwieser J, Dubbert D, Haberstroh S, Lobo-do-Vale R, Caldeira MC, and Werner C

Subjects

Circadian Rhythm, Ecosystem, Monoterpenes analysis, Monoterpenes metabolism, Portugal, Sesquiterpenes analysis, Sesquiterpenes metabolism, Temperature, Atmosphere chemistry, Cistus metabolism, Diterpenes, Kaurane analysis, Diterpenes, Kaurane metabolism, Plant Leaves metabolism, Volatile Organic Compounds analysis, Volatile Organic Compounds metabolism

Abstract

Mediterranean vegetation emits a wide range of biogenic volatile organic compounds (BVOCs) among which isoprenoids present quantitatively the most important compound class. Here, we investigated the isoprenoid emission from two Mediterranean Cistaceae shrubs, Halimium halimifolium and Cistus ladanifer, under controlled and natural conditions, respectively. For the first time, diurnal emission patterns of the diterpene kaurene were detected in real-time by Proton-Transfer-Reaction-Time-of-Flight-Mass-Spectrometer. Kaurene emissions were strongly variable among H. halimifolium plants, ranging from 0.01 ± 0.003 to 0.06 ± 0.01 nmol m -2 s -1 in low and high emitting individuals, respectively. They were in the same order of magnitude as monoterpene (0.01 ± 0.01 to 0.11 ± 0.04 nmol m -2 s -1 ) and sesquiterpene (0.01 ± 0.01 to 0.52 nmol m -2 s -1 ) emission rates. Comparable range and variability was found for C. ladanifer under natural conditions. Labelling with 13 C-pyruvate suggested that emitted kaurene was not derived from de novo biosynthesis. The high kaurene content in leaves, the weak relationship with ecophysiological parameters and the tendency of higher emissions with increasing temperatures in the field indicate an emission from storage pools. This study highlights significant emissions of kaurene from two Mediterranean shrub species, indicating that the release of diterpenes into the atmosphere should probably deserve more attention in the future.

Published

2018

45. Quantifying in situ phenotypic variability in the hydraulic properties of four tree species across their distribution range in Europe.

Author

González-Muñoz N, Sterck F, Torres-Ruiz JM, Petit G, Cochard H, von Arx G, Lintunen A, Caldeira MC, Capdeville G, Copini P, Gebauer R, Grönlund L, Hölttä T, Lobo-do-Vale R, Peltoniemi M, Stritih A, Urban J, and Delzon S

Subjects

Climate, Europe, Forests, Phenotype, Droughts, Trees classification, Trees physiology, Water, Xylem physiology

Abstract

Many studies have reported that hydraulic properties vary considerably between tree species, but little is known about their intraspecific variation and, therefore, their capacity to adapt to a warmer and drier climate. Here, we quantify phenotypic divergence and clinal variation for embolism resistance, hydraulic conductivity and branch growth, in four tree species, two angiosperms (Betula pendula, Populus tremula) and two conifers (Picea abies, Pinus sylvestris), across their latitudinal distribution in Europe. Growth and hydraulic efficiency varied widely within species and between populations. The variability of embolism resistance was in general weaker than that of growth and hydraulic efficiency, and very low for all species but Populus tremula. In addition, no and weak support for a safety vs. efficiency trade-off was observed for the angiosperm and conifer species, respectively. The limited variability of embolism resistance observed here for all species except Populus tremula, suggests that forest populations will unlikely be able to adapt hydraulically to drier conditions through the evolution of embolism resistance.

Published

2018

46. Steam pressure treatment of defective Coffea canephora beans improves the volatile profile and sensory acceptance of roasted coffee blends.

Author

Kalschne DL, Viegas MC, De Conti AJ, Corso MP, and Benassi MT

Subjects

Adolescent, Adult, Female, Humans, Male, Odorants analysis, Pressure, Seeds chemistry, Young Adult, Coffea chemistry, Coffee chemistry, Coffee standards, Food Handling methods, Steam, Volatile Organic Compounds analysis

Abstract

Between 15 and 20% of Brazilian coffee production corresponds to defective beans (PVA), which decreases the quality of the coffee brew. Steam treatment has been reported as an alternative to improve the volatile profile and cup quality of coffee. The aim of this study was to propose a steam treatment of defective Coffea canephora beans to improve the volatile profile of the roasted coffee. The sensory impacts of adding steamed coffee (SC) in Coffea arabica blends were evaluated. The steam treatments studied modified the volatile profile of roasted SCs, increasing the contents of acetoin, benzyl alcohol, maltol, 2,6-dimethylpyrazine, 2-furfurylthiol, and 5-methylfurfural and decreasing the contents of 4-ethylguaiacol, isovaleric acid, methional, 2,3-diethyl-5-methylpyrazine, and 3-methoxy-3-methylpyrazine. Among the evaluated parameters, the best condition to maximized the content of the volatiles with a potential positive impact and minimize those with a potential negative impact was 5bar/16min (SC 5). The thresholds of consumer rejection and of detection indicate that up to 30% SC 5 can be added to a high cup quality Coffea arabica coffee without perception or rejection of the coffee brew. A blend of 30% of SC 5 and 70% of Coffea arabica was well accepted., (Copyright © 2017 Elsevier Ltd. All rights reserved.)

Published

2018

47. Local loss and spatial homogenization of plant diversity reduce ecosystem multifunctionality.

Author

Hautier Y, Isbell F, Borer ET, Seabloom EW, Harpole WS, Lind EM, MacDougall AS, Stevens CJ, Adler PB, Alberti J, Bakker JD, Brudvig LA, Buckley YM, Cadotte M, Caldeira MC, Chaneton EJ, Chu C, Daleo P, Dickman CR, Dwyer JM, Eskelinen A, Fay PA, Firn J, Hagenah N, Hillebrand H, Iribarne O, Kirkman KP, Knops JMH, La Pierre KJ, McCulley RL, Morgan JW, Pärtel M, Pascual J, Price JN, Prober SM, Risch AC, Sankaran M, Schuetz M, Standish RJ, Virtanen R, Wardle GM, Yahdjian L, and Hector A

Subjects

Models, Biological, Spatial Analysis, Biodiversity, Grassland, Plants

Abstract

Biodiversity is declining in many local communities while also becoming increasingly homogenized across space. Experiments show that local plant species loss reduces ecosystem functioning and services, but the role of spatial homogenization of community composition and the potential interaction between diversity at different scales in maintaining ecosystem functioning remains unclear, especially when many functions are considered (ecosystem multifunctionality). We present an analysis of eight ecosystem functions measured in 65 grasslands worldwide. We find that more diverse grasslands-those with both species-rich local communities (α-diversity) and large compositional differences among localities (β-diversity)-had higher levels of multifunctionality. Moreover, α- and β-diversity synergistically affected multifunctionality, with higher levels of diversity at one scale amplifying the contribution to ecological functions at the other scale. The identity of species influencing ecosystem functioning differed among functions and across local communities, explaining why more diverse grasslands maintained greater functionality when more functions and localities were considered. These results were robust to variation in environmental drivers. Our findings reveal that plant diversity, at both local and landscape scales, contributes to the maintenance of multiple ecosystem services provided by grasslands. Preserving ecosystem functioning therefore requires conservation of biodiversity both within and among ecological communities.

Published

2018

48. Neuroprotective Effects of Pomegranate Peel Extract after Chronic Infusion with Amyloid-β Peptide in Mice.

Author

Morzelle MC, Salgado JM, Telles M, Mourelle D, Bachiega P, Buck HS, and Viel TA

Subjects

Animals, Brain drug effects, Brain pathology, Disease Models, Animal, Inflammation prevention & control, Male, Maze Learning drug effects, Mice, Mice, Inbred C57BL, Motor Activity drug effects, Neurodegenerative Diseases pathology, Neuronal Plasticity drug effects, Oxidative Stress drug effects, Amyloid beta-Peptides pharmacology, Fruit chemistry, Lythraceae chemistry, Neurodegenerative Diseases prevention & control, Neuroprotective Agents pharmacology, Phytotherapy methods, Plant Extracts pharmacology

Abstract

Alzheimer's disease is a chronic and degenerative condition that had no treatment until recently. The current therapeutic strategies reduce progression of the disease but are expensive and commonly cause side effects that are uncomfortable for treated patients. Functional foods to prevent and/or treat many conditions, including neurodegenerative diseases, represent a promising field of study currently gaining attention. To this end, here we demonstrate the effects of pomegranate (Punica granatum) peel extract (PPE) regarding spatial memory, biomarkers of neuroplasticity, oxidative stress and inflammation in a mouse model of neurodegeneration. Male C57Bl/6 mice were chronically infused for 35 days with amyloid-β peptide 1-42 (Aβ) or vehicle (control) using mini-osmotic pumps. Another group, also infused with Aβ, was treated with PPE (p.o.- βA+PPE, 800 mg/kg/day). Spatial memory was evaluated in the Barnes maze. Animals treated with PPE and in the control group exhibited a reduction in failure to find the escape box, a finding that was not observed in the Aβ group. The consumption of PPE reduced amyloid plaque density, increased the expression of neurotrophin BDNF and reduced the activity of acetylcholinesterase enzyme. A reduction in lipid peroxidation and in the concentration of the pro-inflammatory cytokine TNF-α was also observed in the PPE group. No hepatic lesions were observed in animals treated with PPE. In conclusion, administration of pomegranate peel extract has neuroprotective effects involving multiple mechanisms to prevent establishment and progression of the neurodegenerative process induced by infusion with amyloid-β peptide in mice., Competing Interests: The authors have declared that no competing interests exist.

Published

2016

49. Too Many Is Too Bad: Long-Term Net Negative Effects of High Density Ungulate Populations on a Dominant Mediterranean Shrub.

Author

Lecomte X, Fedriani JM, Caldeira MC, Clemente AS, Olmi A, and Bugalho MN

Subjects

Animals, Ecosystem, Herbivory, Population Density, Population Dynamics, Seasons, Seed Dispersal, Cistaceae physiology, Deer, Seeds physiology

Abstract

Plant-animal interactions imply costs and benefits with net balance depending on interacting species and ecological context. Ungulates, in particular, confer costs (e.g., plant leaf consumption, flower bud predation) and benefits (e.g., plant overcompensation, seed dispersal) to plants. Magnitude of costs and benefits may be altered by habitat management or ecological conditions favoring high density ungulate populations. Little is known however on whether plant costs or benefits predominate over the years, or the long-term outcomes of plant-animal interactions in habitat types sustaining high density ungulate populations. We investigated how high density ungulate populations alter plant costs and benefits by quantifying ungulate long-term effects on the shrub Cistus ladanifer (Cistaceae) individual size, seed weight and number, seed bank, and population density, through a 12-year ungulate exclusion experiment in a Mediterranean scrubland. We monitored plant size and flower buds in plants exposed or protected from ungulates and number of developed capsules and seeds consumed (potential seed dispersal) by ungulates during three reproductive seasons. We found that ungulates negatively affected shrub size and led to a dramatically decline of shrub reproductive structures and seed production, affecting the plant reproductive cycle. Number of buds was 27 times higher and number of developed seed 5 times higher in ungulate-excluded as compared to ungulate-exposed plots. After 9 years of ungulate exclusion, the C. ladanifer seed bank was 2.6 times higher in ungulate-excluded plots. The population density of C. ladanifer was 4 times higher in ungulate-excluded plots. Our long-term experiment showed that high density ungulate populations can alter plant-animal interactions by reducing plant benefits and increasing plant costs.

Published

2016

50. Plasma from pre-eclamptic patients induces the expression of the anti-angiogenic miR-195-5p in endothelial cells.

Author

Sandrim VC, Dias MC, Bovolato AL, Tanus-Santos JE, Deffune E, and Cavalli RC

Subjects

Adult, Female, Humans, MicroRNAs metabolism, Pregnancy, Vascular Endothelial Growth Factor A metabolism, Angiogenesis Inhibitors metabolism, Gene Expression Regulation, Human Umbilical Vein Endothelial Cells metabolism, MicroRNAs genetics, Neovascularization, Physiologic, Pre-Eclampsia blood

Abstract

We examined the effect of plasma incubation from preeclampsia pregnant on the antiangiogenic miR-195-5p expression. Higher miR-195-5p expression was found in cultures incubated with preeclampsia plasma compared to those incubated with healthy pregnant plasma. Next, as VEGF is a target of miR-195-5p we have quantified its expression by real-time qPCR and ELISA. We found reduced VEGF levels in culture incubated with preeclampsia plasma. Therefore, we have concluded that the higher expression of miR-195-5p in endothelial cell cultures incubated with preeclampsia plasma may contribute to decreased expression of VEGFA (gene and protein) and increased antiangiogenic status in preeclampsia. Therefore, this miR may be an important target in preeclampsia., (© 2016 The Authors. Journal of Cellular and Molecular Medicine published by John Wiley & Sons Ltd and Foundation for Cellular and Molecular Medicine.)

Published

2016