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2. The challenge of unprecedented floods and droughts in risk management

Author

Kreibich, Heidi, Van Loon, Anne F., Schröter, Kai, Ward, Philip J., Mazzoleni, Maurizio, Sairam, Nivedita, Abeshu, Guta Wakbulcho, Agafonova, Svetlana, AghaKouchak, Amir, Aksoy, Hafzullah, Alvarez-Garreton, Camila, Aznar, Blanca, Balkhi, Laila, Barendrecht, Marlies H., Biancamaria, Sylvain, Bos-Burgering, Liduin, Bradley, Chris, Budiyono, Yus, Buytaert, Wouter, Capewell, Lucinda, Carlson, Hayley, Cavus, Yonca, Couasnon, Anaïs, Coxon, Gemma, Daliakopoulos, Ioannis, de Ruiter, Marleen C., Delus, Claire, Erfurt, Mathilde, Esposito, Giuseppe, François, Didier, Frappart, Frédéric, Freer, Jim, Frolova, Natalia, Gain, Animesh K., Grillakis, Manolis, Grima, Jordi Oriol, Guzmán, Diego A., Huning, Laurie S., Ionita, Monica, Kharlamov, Maxim, Khoi, Dao Nguyen, Kieboom, Natalie, Kireeva, Maria, Koutroulis, Aristeidis, Lavado-Casimiro, Waldo, Li, Hong-Yi, LLasat, María Carmen, Macdonald, David, Mård, Johanna, Mathew-Richards, Hannah, McKenzie, Andrew, Mejia, Alfonso, Mendiondo, Eduardo Mario, Mens, Marjolein, Mobini, Shifteh, Mohor, Guilherme Samprogna, Nagavciuc, Viorica, Ngo-Duc, Thanh, Thao Nguyen Huynh, Thi, Nhi, Pham Thi Thao, Petrucci, Olga, Nguyen, Hong Quan, Quintana-Seguí, Pere, Razavi, Saman, Ridolfi, Elena, Riegel, Jannik, Sadik, Md Shibly, Savelli, Elisa, Sazonov, Alexey, Sharma, Sanjib, Sörensen, Johanna, Arguello Souza, Felipe Augusto, Stahl, Kerstin, Steinhausen, Max, Stoelzle, Michael, Szalińska, Wiwiana, Tang, Qiuhong, Tian, Fuqiang, Tokarczyk, Tamara, Tovar, Carolina, Tran, Thi Van Thu, Van Huijgevoort, Marjolein H. J., van Vliet, Michelle T. H., Vorogushyn, Sergiy, Wagener, Thorsten, Wang, Yueling, Wendt, Doris E., Wickham, Elliot, Yang, Long, Zambrano-Bigiarini, Mauricio, Blöschl, Günter, and Di Baldassarre, Giuliano

Published
2022
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5. Food habits and risk factors for child malnutrition in rural families in the municipality of Soracá, Boyacá, Colombia.

Author

Salazar Jiménez, Juan Gabriel, Manrique Corredor, Edwar Javier, Torres Tovar, Carolina del Pilar, and Espinosa Becerra, Natalia Marcela

Subjects
RISK assessment, CROSS-sectional method, MALNUTRITION, CRONBACH'S alpha, RESEARCH funding, STATISTICAL sampling, QUESTIONNAIRES, FAMILIES, DESCRIPTIVE statistics, SURVEYS, FOOD habits, RURAL conditions, RESEARCH methodology, DATA analysis software, LOCAL government, DIET, DISEASE risk factors, CHILDREN
Abstract

Child malnutrition is a global public health problem which causes irreversible damage to physical and cognitive development in early childhood. In 2015, the National Survey of Nutrition reported that Boyacá, Colombia had a prevalence of chronic malnutrition of 11.6% above the national average, considering that Boyacá is predominantly rural territory. This article analyzes the risk factors that influenced the diets of children between 16 and 38 months among 27 rural families. Through a descriptive cross-sectional study, a survey of the socio-family characterization and knowledge, attitudes, and practices (KAP) were applied with participating families. It was found that among the nutritional risk factors in early childhood are low levels of maternal schooling, low economic income, and barriers to accessing health and education services. The results of this research enable contributions to the contextualization of public policies in health and nutrition with a territorial approach that allow the improvement of the quality of life in early childhood in rural areas. [ABSTRACT FROM AUTHOR]

Published
2024
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11. Strategies of diaspore dispersal investment in Compositae: the case of the Andean highlands.

Author

Tovar, Carolina, Hudson, Lucia, Cuesta, Francisco, Meneses, Rosa Isela, Muriel, Priscilla, Hidalgo, Oriane, Palazzesi, Luis, Ballesteros, Carlos Suarez, Hunt, Eleanor Hammond, Diazgranados, Mauricio, Hind, D J Nicholas, Forest, Félix, Halloy, Stephan, Aguirre, Nikolay, Baker, William J, Beck, Stephan, Carilla, Julieta, Eguiguren, Paúl, Françoso, Elaine, and Gámez, Luis E

Subjects
*FRAGMENTED landscapes, *BIOTIC communities, *SPECIES distribution, *UPLANDS, *MOUNTAIN ecology
Abstract

Background and Aims Understanding diaspore morphology and how much a species invests on dispersal appendages is key for improving our knowledge of dispersal in fragmented habitats. We investigate diaspore morphological traits in high-Andean Compositae and their main abiotic and biotic drivers and test whether they play a role in species distribution patterns across the naturally fragmented high-Andean grasslands. Methods We collected diaspore trait data for 125 Compositae species across 47 tropical high-Andean summits, focusing on achene length and pappus-to-achene length ratio, with the latter as a proxy of dispersal investment. We analysed the role of abiotic (temperature, elevation and latitude) and biotic factors (phylogenetic signal and differences between tribes) on diaspore traits and whether they are related to distribution patterns across the Andes, using phylogenomics, distribution modelling and community ecology analyses. Key Results Seventy-five percent of the studied species show small achenes (length <3.3 mm) and 67% have high dispersal investment (pappus length at least two times the achene length). Dispersal investment increases with elevation, possibly to compensate for lower air density, and achene length increases towards the equator, where non-seasonal climate prevails. Diaspore traits show significant phylogenetic signal, and higher dispersal investment is observed in Gnaphalieae, Astereae and Senecioneae, which together represent 72% of our species. High-Andean-restricted species found across the tropical Andes have, on average, the pappus four times longer than the achene, a significantly higher dispersal investment than species present only in the northern Andes or only in the central Andes. Conclusions Small achenes and high diaspore dispersal investment dominate among high-Andean Compositae, traits typical of mostly three tribes of African origin; but traits are also correlated with the environmental gradients within the high-Andean grasslands. Our results also suggest that diaspore dispersal investment is likely to shape species distribution patterns in naturally fragmented habitats. [ABSTRACT FROM AUTHOR]

Published
2023
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12. Root trait variation along water gradients in the Cape Floristic Region.

Author

Kühn, Nicola, Tovar, Carolina, Willis, Katherine J., and Macias‐Fauria, Marc

Subjects
*DROUGHTS, *WATER supply, *PLANT size, *BIOMES
Abstract

Questions: Roots are responsible for essential plant functions including water uptake. However, the extent to which root traits (size and structure) determine plant presence in water‐limited environments is still poorly understood. Here we investigated how root traits vary across water availability gradients within a dry South African biome. Location: South Africa. Methods: We measured six below‐ground (root) and eight above‐ground (leaf + stem) traits of 124 individuals of nine dominant woody shrub species from wetter and drier sites (600–700 vs 250–300 mm annual precipitation) in the Fynbos biome of the Cape Floristic Region. Within sites, we sampled from recently burnt and unburnt/more mature vegetation and at three locations along topographical gradients. Results: Drier regions showed greater maximum rooting depth, length, root dry matter content and root to shoot ratio. These trait patterns were consistent at an intraspecific level, along locally drier topographical locations and in post‐fire environments. Roots accounted for significant whole‐plant trait variation. Additionally, in drier conditions, we found increased root allocation deviating from expected global allometric relationships. Our study also demonstrates that the combination of fire and drought in the driest locations results in poor above‐ground vegetation recovery in terms of plant size, cover and individual counts with only resprouters persisting. Conclusions: Our research suggests that root investment in Fynbos shrubs will likely be key for coping with a drier and warmer future and should be a focus of more research for dryland biomes. [ABSTRACT FROM AUTHOR]

Published
2023
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15. Understanding climate change impacts on biome and plant distributions in the Andes: Challenges and opportunities.

Author

Tovar, Carolina, Carril, Andrea F., Gutiérrez, Alvaro G., Ahrends, Antje, Fita, Lluis, Zaninelli, Pablo, Flombaum, Pedro, Abarzúa, Ana M., Alarcón, Diego, Aschero, Valeria, Báez, Selene, Barros, Agustina, Carilla, Julieta, Ferrero, M. Eugenia, Flantua, Suzette G. A., Gonzáles, Paúl, Menéndez, Claudio G., Pérez‐Escobar, Oscar A., Pauchard, Aníbal, and Ruscica, Romina C.

Subjects
*PHYTOGEOGRAPHY, *BIOMES, *METEOROLOGICAL stations, *DECIDUOUS forests, *SPECIES distribution, *CLIMATE change, *ALPINE glaciers
Abstract

Aim: Climate change is expected to impact mountain biodiversity by shifting species ranges and the biomes they shape. The extent and regional variation in these impacts are still poorly understood, particularly in the highly biodiverse Andes. Regional syntheses of climate change impacts on vegetation are pivotal to identify and guide research priorities. Here we review current data, knowledge and uncertainties in past, present and future climate change impacts on vegetation in the Andes. Location: Andes. Taxon: Plants. Methods: We (i) conducted a literature review on Andean vegetation responses to past and contemporary climatic change, (ii) analysed future climate projections for different elevations and slope orientations at 19 Andean locations using an ensemble of model outputs from the Coupled Model Intercomparison Project 5, and (iii) calculated changes in the suitable climate envelope area of Andean biomes and compared these results to studies that used species distribution models. Results: Future climatic changes (2040–2070) are projected to be stronger at high‐elevation areas in the tropical Andes (up to 4°C under RCP 8.5), while in the temperate Andes temperature increases are projected to be up to 2°C. Under this worst‐case scenario, temperate deciduous forests and the grasslands/steppes from the Central and Southern Andes are predicted to show the greatest losses of suitable climatic space (30% and 17%–23%, respectively). The high vulnerability of these biomes contrasts with the low attention from researchers modelling Andean species distributions. Critical knowledge gaps include a lack of an Andean wide plant checklist, insufficient density of weather stations at high‐elevation areas, a lack of high‐resolution climatologies that accommodates the Andes' complex topography and climatic processes, insufficient data to model demographic and ecological processes, and low use of palaeo data for distribution modelling. Main conclusions: Climate change is likely to profoundly affect the extent and composition of Andean biomes. Temperate Andean biomes in particular are susceptible to substantial area contractions. There are, however, considerable challenges and uncertainties in modelling species and biome responses and a pressing need for a region‐wide approach to address knowledge gaps and improve understanding and monitoring of climate change impacts in these globally important biomes. [ABSTRACT FROM AUTHOR]

Published
2022
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17. Prioritising crop wild relatives to enhance agricultural resilience in sub‐Saharan Africa under climate change.

Author

Satori, David, Tovar, Carolina, Faruk, Aisyah, Hammond Hunt, Eleanor, Muller, Gemma, Cockel, Christopher, Kühn, Nicola, Leitch, Ilia J., Lulekal, Ermias, Pereira, Laura, Ryan, Philippa, Willis, Katherine J., and Pironon, Samuel

Abstract

Social Impact Statement: Climate change is expected to disproportionately affect sub‐Saharan Africa in the next century, posing a threat to the livelihoods of smallholder farmers and deepening food insecurity. To adapt to this threat, more climate‐resilient crops need to be brought into the food system; these may be developed through breeding with crop wild relatives with key traits to cope with climate change. Here, we assess the level of open‐access trait documentation of crop wild relatives of 29 important crops, their resilience, how threatened they are in situ, how well they are preserved ex situ and we provide priorities for their conservation and use in breeding programmes. Summary: Climate change is projected to adversely affect smallholder agriculture in sub‐Saharan Africa (SSA) over the next century, with many areas becoming unsuitable for growing crops. Breeding programmes using crop wild relatives (CWRs) that are pre‐adapted to projected future climatic conditions may lead to more resilient crops, but their traits have not been screened across a large diversity of CWRs. Furthermore, many are threatened and require greater protection in situ and ex situ to prevent the loss of an important adaptive solution to climate change.A previous ecogeographical study found that 303 out of 836 CWRs of 29 major crops cultivated across SSA may represent priorities for future crop resilience. Here, we assessed the availability of trait information and compared traits between resilient and non‐resilient CWRs. Subsequently, we analysed the conservation status of CWRs in situ and ex situ to set new global priorities for protection.Our findings show that the traits of many CWRs are poorly described, but for those species with better coverage, key differences between resilient and non‐resilient CWRs were identified, including lower plant height amongst resilient CWRs of tree crops (arabica and robusta coffee, mango and cacao) and a higher likelihood of invasive CWRs to be resilient. We found that 14% and 36% of resilient CWRs are threatened in situ and absent from seed collections, respectively.Our study highlights CWR priorities for conservation based on resilience. A concerted international effort is recommended to conserve CWRs and improve agricultural resilience in a changing climate. [ABSTRACT FROM AUTHOR]

Published
2022
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18. Health-Related Quality of Life in Primary Caregivers of People Receiving Palliative Home Care.

Author

Reina-Gamba, Nadia Carolina, Medellin-Olaya, Judith, Burbano-Rivera, Daira Vanesa, Miranda-Rojas, Hilda Mireya, Vargas-Escobar, Lina Maria, and Colmenares-Tovar, Carolina

Subjects
WELL-being, CONFIDENCE intervals, ANALYSIS of variance, SPIRITUALITY, HOME care services, RESEARCH methodology, CROSS-sectional method, QUANTITATIVE research, HEALTH status indicators, BURDEN of care, T-test (Statistics), SOCIOECONOMIC factors, PSYCHOLOGY of caregivers, QUALITY of life, DESCRIPTIVE statistics, QUESTIONNAIRES, STATISTICAL sampling, DATA analysis software, PSYCHOLOGICAL adaptation, PALLIATIVE treatment
Abstract

Primary caregivers face constant challenges because of changes in the clinical situation of the person receiving palliative home care. These changes can alter the health-related quality of life and all its dimensions. This study aimed to describe the health-related quality of life of 137 primary caregivers of people enrolled in a palliative home care program in Bogota, Colombia, applying a quantitative, descriptive, and cross-sectional research design. The Caregiver's Quality of Life Instrument, initially developed by Ferrell, and the sociodemographic characteristics form for caregivers of people with chronic disease, both previously validated in the Colombian population, were used. The results showed that the primary caregivers have a good and adequate overall health-related quality of life; however, they presented some alterations in the physical, psychological, and social dimensions. Therefore, nursing and interdisciplinary palliative care teams should aim their interventions not only at patients but also at primary caregivers during palliative home care. [ABSTRACT FROM AUTHOR]

Published
2022
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20. Colombia's bioregions as a source of useful plants.

Author

Bystriakova, Nadia, Tovar, Carolina, Monro, Alexandre, Moat, Justin, Hendrigo, Pablo, Carretero, Julia, Torres-Morales, Germán, and Diazgranados, Mauricio

Subjects
*USEFUL plants, *NUMBERS of species, *TROPICAL dry forests, *GRID cells, *SPECIES distribution, *ONLINE databases, *SHRUBLANDS
Abstract

The aim of our study was to assess the importance of different Colombian bioregions in terms of the supply of useful plant species and the quality of the available distribution data. We assembled a dataset of georeferenced collection localities of all vascular plants of Colombia available from global and local online databases. We then assembled a list of species, subspecies and varieties of Colombia's useful plants and retrieved all point locality information associated with these taxa. We overlaid both datasets with a map of Colombia's bioregions to retrieve all species and useful species distribution records in each bioregion. To assess the reliability of our estimates of species numbers, we identified information gaps , in geographic and environmental space, by estimating their completeness and coverage. Our results confirmed that Colombia's third largest bioregion, the Andean moist forest followed by the Amazon, Pacific, Llanos and Caribbean moist forests contained the largest numbers of useful plant species. Medicinal use was the most common useful attribute across all bioregions, followed by Materials, Environmental uses, and Human Food. In all bioregions, except for the Andean páramo, the proportion of well-surveyed 10×10 km grid cells (with ≥ 25 observation records of useful plants) was below 50% of the total number of surveyed cells. Poor survey coverage was observed in the three dry bioregions: Caribbean deserts and xeric shrublands, and Llanos and Caribbean dry forests. This suggests that additional primary data is needed. We document knowledge gaps that will hinder the incorporation of useful plants into Colombia's stated plans for a bioeconomy and their sustainable management. In particular, future research should focus on the generation of additional primary data on the distribution of useful plants in the Amazon and Llanos (Orinoquia) regions where both survey completeness and coverage appeared to be less adequate compared with other regions. [ABSTRACT FROM AUTHOR]

Published
2021
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21. Ecosystem services show variable responses to future climate conditions in the Colombian páramos.

Author

Diazgranados, Mauricio, Tovar, Carolina, Etherington, Thomas R., Rodríguez-Zorro, Paula A., Castellanos-Castro, Carolina, Rueda, Manuel Galvis, and Flantua, Suzette G. A.

Subjects
ECOSYSTEM services, FOOD of animal origin, PLANT species, SERVICE animals, SPECIES diversity, CLIMATE change
Abstract

Background: The páramos, the high-elevation ecosystems of the northern Andes, are well-known for their high species richness and provide a variety of ecosystem services to local subsistence-based communities and regional urbanizations. Climate change is expected to negatively affect the provision of these services, but the level of this impact is still unclear. Here we assess future climate change impact on the ecosystem services provided by the critically important páramos of the department of Boyacá in Colombia, of which over 25% of its territory is páramo. Methods: We first performed an extensive literature review to identify useful species of Boyacá, and selected 103 key plant species that, based on their uses, support the provision of ecosystem services in the páramos. We collated occurrence information for each key species and using a Mahalanobis distance approach we applied climate niche modelling for current and future conditions. Results: We show an overall tendency of reduction in area for all ecosystem services under future climate conditions (mostly a loss of 10% but reaching up to a loss of 40%), but we observe also increases, and responses differ in intensity loss. Services such as Food for animals, Material and Medicinal, show a high range of changes that includes both positive and negative outcomes, while for Food for humans the responses are mostly substantially negative. Responses are less extreme than those projected for individual species but are often complex because a given ecosystem service is provided by several species. As the level of functional or ecological redundancy between species is not yet known, there is an urgency to expand our knowledge on páramos ecosystem services for more species. Our results are crucial for decision-makers, social and conservation organizations to support sustainable strategies to monitor and mitigate the potential consequences of climate change for human livelihoods in mountainous settings. [ABSTRACT FROM AUTHOR]

Published
2021
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22. Plant and animal endemism in the eastern Andean slope: challenges to conservation

Author

Swenson Jennifer J, Young Bruce E, Beck Stephan, Comer Pat, Córdova Jesús H, Dyson Jessica, Embert Dirk, Encarnación Filomeno, Ferreira Wanderley, Franke Irma, Grossman Dennis, Hernandez Pilar, Herzog Sebastian K, Josse Carmen, Navarro Gonzalo, Pacheco Víctor, Stein Bruce A, Timaná Martín, Tovar Antonio, Tovar Carolina, Vargas Julieta, and Zambrana-Torrelio Carlos M

Subjects
Andes-Amazon, conservation planning, ecological systems, endemic species richness, irreplaceability, Latin America, Ecology, QH540-549.5
Abstract

Abstract Background The Andes-Amazon basin of Peru and Bolivia is one of the most data-poor, biologically rich, and rapidly changing areas of the world. Conservation scientists agree that this area hosts extremely high endemism, perhaps the highest in the world, yet we know little about the geographic distributions of these species and ecosystems within country boundaries. To address this need, we have developed conservation data on endemic biodiversity (~800 species of birds, mammals, amphibians, and plants) and terrestrial ecological systems (~90; groups of vegetation communities resulting from the action of ecological processes, substrates, and/or environmental gradients) with which we conduct a fine scale conservation prioritization across the Amazon watershed of Peru and Bolivia. We modelled the geographic distributions of 435 endemic plants and all 347 endemic vertebrate species, from existing museum and herbaria specimens at a regional conservation practitioner's scale (1:250,000-1:1,000,000), based on the best available tools and geographic data. We mapped ecological systems, endemic species concentrations, and irreplaceable areas with respect to national level protected areas. Results We found that sizes of endemic species distributions ranged widely (< 20 km2 to > 200,000 km2) across the study area. Bird and mammal endemic species richness was greatest within a narrow 2500-3000 m elevation band along the length of the Andes Mountains. Endemic amphibian richness was highest at 1000-1500 m elevation and concentrated in the southern half of the study area. Geographical distribution of plant endemism was highly taxon-dependent. Irreplaceable areas, defined as locations with the highest number of species with narrow ranges, overlapped slightly with areas of high endemism, yet generally exhibited unique patterns across the study area by species group. We found that many endemic species and ecological systems are lacking national-level protection; a third of endemic species have distributions completely outside of national protected areas. Protected areas cover only 20% of areas of high endemism and 20% of irreplaceable areas. Almost 40% of the 91 ecological systems are in serious need of protection (= < 2% of their ranges protected). Conclusions We identify for the first time, areas of high endemic species concentrations and high irreplaceability that have only been roughly indicated in the past at the continental scale. We conclude that new complementary protected areas are needed to safeguard these endemics and ecosystems. An expansion in protected areas will be challenged by geographically isolated micro-endemics, varied endemic patterns among taxa, increasing deforestation, resource extraction, and changes in climate. Relying on pre-existing collections, publically accessible datasets and tools, this working framework is exportable to other regions plagued by incomplete conservation data.

Published
2012
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23. A concerted research effort to advance the hydrological understanding of tropical páramos.

Author

Correa, Alicia, Ochoa‐Tocachi, Boris F, Birkel, Christian, Ochoa‐Sánchez, Ana, Zogheib, Charles, Tovar, Carolina, and Buytaert, Wouter

Subjects
SCIENTIFIC knowledge, WATER conservation, TRADITIONAL ecological knowledge, WATER security, WATER supply, HYDROLOGIC cycle
Abstract

Páramos, a neotropical alpine grassland‐peatland biome of the northern Andes and Central America, play an essential role in regional and global cycles of water, carbon, and nutrients. They act as water towers, delivering water and ecosystem services from the high mountains down to the Pacific, Caribbean, and Amazon regions. Páramos are also widely recognized as a biodiversity and climate change hot spots, yet they are threatened by anthropogenic activities and environmental changes. Despite their importance for water security and carbon storage, and their vulnerability to human activities, only three decades ago, páramos were severely understudied. Increasing awareness of the need for hydrological evidence to guide sustainable management of páramos prompted action for generating data and for filling long‐standing knowledge gaps. This has led to a remarkably successful increase in scientific knowledge, induced by a strong interaction between the scientific, policy, and (local) management communities. A combination of well‐established and innovative approaches has been applied to data collection, processing, and analysis. In this review, we provide a short overview of the historical development of research and state of knowledge of the hydrometeorology, flux dynamics, anthropogenic impacts, and the influence of extreme events in páramos. We then present emerging technologies for hydrology and water resources research and management applied to páramos. We discuss how converging science and policy efforts have leveraged traditional and new observational techniques to generate an evidence base that can support the sustainable management of páramos. We conclude that this co‐evolution of science and policy was able to successfully cover different spatial and temporal scales. Lastly, we outline future research directions to showcase how sustainable long‐term data collection can foster the responsible conservation of páramos water towers. [ABSTRACT FROM AUTHOR]

Published
2020
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24. Plant dispersal strategies of high tropical alpine communities across the Andes.

Author

Tovar, Carolina, Melcher, Inga, Kusumoto, Buntarou, Cuesta, Francisco, Cleef, Antoine, Meneses, Rosa Isela, Halloy, Stephan, Llambí, Luis Daniel, Beck, Stephan, Muriel, Priscilla, Jaramillo, Ricardo, Jácome, Jorge, Carilla, Julieta, and Dalling, James

Subjects
*PLANT dispersal, *MOUNTAIN ecology, *STRUCTURAL equation modeling, *PLANT communities, *MOUNTAIN plants
Abstract

Dispersal is a key ecological process that influences plant community assembly. Therefore, understanding whether dispersal strategies are associated with climate is of utmost importance, particularly in areas greatly exposed to climate change. We examined alpine plant communities located in the mountain summits of the tropical Andes across a 4,000‐km latitudinal gradient. We investigated species dispersal strategies and tested their association with climatic conditions and their evolutionary history.We used dispersal‐related traits (dispersal mode and growth form) to characterize dispersal strategies for 486 species recorded on 49 mountain summits. Then we analysed the phylogenetic signal of traits and investigated the association between dispersal traits, phylogeny, climate and space using structural equation modelling and fourth‐corner analysis together with RLQ ordination.A median of 36% species in the communities was anemochorous (wind‐dispersed) and herbaceous. This dispersal strategy was followed by the barochory‐herb combination (herbaceous with unspecialized seeds, dispersed by gravity) with a median of 26.3% species in the communities. The latter strategy was common among species with distributions restricted to alpine environments.While trait states were phylogenetically conserved, they were significantly associated with a temperature gradient. Low minimum air temperatures, found at higher latitudes/elevations, were correlated with the prevalence of barochory and the herb growth form, traits that are common among Caryophyllales, Brassicaceae and Poaceae. Milder temperatures, found at lower latitudes/elevations, were associated with endozoochorous, shrub species mostly from the Ericaceae family. Anemochorous species were found all along the temperature gradient, possibly due to the success of anemochorous Compositae species in alpine regions. We also found that trait state dominance was more associated with the climatic conditions of the summit than with community phylogenetic structure. Although the evolutionary history of the tropical Andean flora has also shaped dispersal strategies, our results suggest that the environment had a more predominant role.Synthesis. We showed that dispersal‐related traits are strongly associated with a gradient of minimum air temperatures in the Andes. Global warming may weaken this key filter at tropical alpine summits, potentially altering community dispersal strategies in this region and thus, plant community structure and composition. [ABSTRACT FROM AUTHOR]

Published
2020
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25. Drymaria veliziae (Caryophyllaceae), a new species from the Andes of Cajamarca (North Peru).

Author

Montesinos-Tubée, Daniel B., Tovar, Carolina, Iberico-Vela, Gustavo, Montoya-Quino, Juan, and Sanchez-Vega, Isidoro

Subjects
*CARYOPHYLLACEAE, *SPECIES, *GRASSLANDS, *PHOTOGRAPHS
Abstract

A new species from the Northern Peruvian Andes (Cajamarca department), Drymaria veliziae sp. nov., is proposed in the present paper. It grows in the high-elevation montane grasslands and it is morphologically similar to D. auriculipetala from which it differs in having elliptic-ovate leaves, blade margin bases glandular, large number of stipules arranged in a pedicel form at the leaf axis and by the short and glandular pedicels. A detailed description, original photographs and a location map are provided, as well as an updated diagnostic key of Drymaria Ser. Frutescens. The IUCN status of the new species is assessed as Endangered (EN). [ABSTRACT FROM AUTHOR]

Published
2020
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26. Thermal niche traits of high alpine plant species and communities across the tropical Andes and their vulnerability to global warming.

Author

Cuesta, Francisco, Tovar, Carolina, Llambí, Luis D., Gosling, William D., Halloy, Stephan, Carilla, Julieta, Muriel, Priscilla, Meneses, Rosa I., Beck, Stephan, Ulloa Ulloa, Carmen, Yager, Karina, Aguirre, Nikolay, Viñas, Paul, Jácome, Jorge, Suárez‐Duque, David, Buytaert, Wouter, and Pauli, Harald

Subjects
*PLANT species, *MOUNTAIN ecology, *MOUNTAIN plants, *PLANT communities, *SEASONAL temperature variations, *GLOBAL warming, *BIOGEOGRAPHY, *ECOLOGICAL niche, *ALPINE regions
Abstract

Aim: The climate variability hypothesis (CVH) predicts that locations with reduced seasonal temperature variation select for species with narrower thermal ranges. Here we (a) test the CVH by assessing the effect of latitude and elevation on the thermal ranges of Andean vascular plant species and communities, and (b) assess tropical alpine plants vulnerability to warming based on their thermal traits. Location: High tropical Andes. Taxon: Vascular plants. Methods: Temperature data for 505 vascular plant species from alpine communities on 49 summits, were extracted from 29,627 georeferenced occurrences. Species thermal niche traits (TNTs) were estimated using bootstrapping for: minimum temperature, optimum (mean) temperature and breadth (maximum‐minimum). Plant community‐weighted scores were estimated using the TNTs of their constituent species. CVH was tested for species, biogeographical species groups and communities. Vulnerability to global warming was assessed for species, biogeographical species groups and communities. Results: Species restricted to the equator showed narrower thermal niche breadth than species whose ranges stretch far from the equator, however, no difference in niche breadth was found across summits' elevation. Biogeographical species groups distributed close to the equator and restricted to alpine regions showed narrower niche breadth than those with broader ranges. Community‐weighted scores of thermal niche breadth were positively related to distance from equator but not to elevation. Based on their TNTs, species restricted to equatorial latitudes and plant communities dominated by these species were identified as the most vulnerable to the projected 1.5°C warming, due to a potentially higher risk of losing thermal niche space. Main conclusions: Our study confirms that the CVH applies to high tropical Andean plant species and communities, where latitude has a strong effect on the thermal niche breadth. TNTs are identified as suitable indicators of species' vulnerability to warming and are suggested to be included in long‐term biodiversity monitoring in the Andes. [ABSTRACT FROM AUTHOR]

Published
2020
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27. Tropical monodominant forest resilience to climate change in Central Africa: A Gilbertiodendron dewevrei forest pollen record over the past 2,700 years.

Author

Tovar, Carolina, Harris, David J., Breman, Elinor, Brncic, Terry, Willis, Kathy J., and Giesecke, Thomas

Subjects
*FOREST resilience, *FOREST microclimatology, *TROPICAL forests, *FOSSIL pollen, *CLIMATE change, *RAIN gauges
Abstract

Question: The existence of monodominant forest in highly diverse tropical rainforest has been the subject of much debate. One hypothesis suggests that the combination of advantageous traits and long periods of low disturbance is key for this forest's persistence. Here we ask whether there is evidence for the long‐term presence of monodominant Gilbertiodendron forest in the absence of fire and climate change. Location: Republic of Congo. Methods: We extracted fossil pollen and macro‐charcoal from a sediment sequence collected in present‐day monodominant Gilbertiodendron forest stand that spans the last 2,700 years. Climatic changes were inferred using other published palaeoecological records from Central Africa. We also looked at Gilbertiodendron dewevrei's present‐day ecological tolerances. Results: Gilbertiodendron pollen was found in every sample covering the last 2,700 years in similar percentages to present‐day soil surface samples. In addition, no statistically significant change in pollen composition was found during this time despite vegetation changes being documented in nearby mixed and swamp forest cores over the same time period. No evidence of fire was found for a period of 2,400 years. Only minimal burning occurred over the last 300 years in this monodominant stand. The analysis of ecological tolerances shows G. dewevrei has a broad niche for precipitation (1,300–2,460 mm). Conclusions: Our pollen record is the first to describe the long‐term ecological history of an African monodominant forest. Our results show this monodominant stand existed over the past 2,700 years mostly in the absence of fire, providing support for the low disturbance hypothesis as an explanation for monodominance persistence. However, we show that the monodominant forest was continuous, at this site, despite climatic fluctuations in the immediate region. This combined with the broad tolerance of water requirements of the species suggests a potential resilience to future climate variability. However, additional pollen records from a wider area are needed to confirm this. [ABSTRACT FROM AUTHOR]

Published
2019
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28. Plant community dynamics of lomas fog oasis of Central Peru after the extreme precipitation caused by the 1997-98 El Niño event.

Author

Tovar, Carolina, Sánchez Infantas, Edgar, and Teixeira Roth, Vanessa

Subjects
*VEGETATION dynamics, *METEOROLOGICAL precipitation, *PLANT diversity, *VEGETATION & climate, *PLANT communities, *SPECIES distribution
Abstract

Despite El Niño events being one of the main forces shaping the coastal desert vegetation in South America, the impacts of the high precipitation typical of this rare but recurrent climatic event remain understudied. Here we monitored the plant community of a coastal lomas, a seasonal desert ecosystem, during 1998 and 2001 to analyse its changes during the 1997–98 El Niño and the following La Niña events. We measured species abundance and vegetation cover in 31 plots, and recorded climate variables in Lomas de Lachay, Peru. We found a significant positive correlation between precipitation and vegetation cover, density, alpha diversity (species diversity at the plot level), total richness and abundance of several key species but no correlation with gamma diversity (species diversity at the whole loma level). During the El Niño event, the seasonality, typical of the lomas ecosystem, disappeared, as evidenced by both the similarity of species composition and mean vegetation cover values between most sampling campaigns of 1998 and 1999. Moreover, total richness was lower during the El Niño event than during the humid season of 2000 and 2001 resulting from the dominance of only a few species, such as Nicotiana paniculata and Loasa urens. Temporal-spatial changes in the abundance of the dominant species caused the differences between alpha and gamma diversity, especially during 1999. Within that year, mean alpha diversity showed similar values whilst gamma diversity values were different. The reestablishment of the seasonality of most plant community characteristics and a clear difference between species composition of the humid and the dry season occurred two years after the El Niño event, suggesting a resilient community. This study provides one of the few quantifications of the Peruvian lomas’ response to the 1997–98 El Niño event and the following La Niña, one of the most extreme climatic events in the last century. [ABSTRACT FROM AUTHOR]

Published
2018
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29. From patches to richness: assessing the potential impact of landscape transformation on biodiversity.

Author

ALBERTO ARNILLAS, CARLOS, TOVAR, CAROLINA, CADOTTE, MARC W., and BUYTAERT, WOUTER

Abstract

Natural patchiness and human fragmentation result in habitats that are not continuously distributed. How spatial configuration of patches in fragmented habitats influences biodiversity remains largely controversial. Here, we propose a framework to extend the species–area relationship (SAR) approach to analyze how changes in habitat configuration affect species richness in fragmented habitats. We use hypothetical communities that are characterized by (1) their tolerance to human activities, (2) the dispersal capability of the individuals of any species, (3) the SAR, and (4) the species turnover among patches. Further, the species turnover is a function of (4a) the predictability of species survival and (4b) the species recolonization odds. In our framework, we identify three extreme communities that encompass the richness of all potential different communities, and thus encapsulate the richness of real communities. We propose a graph to visualize the effect of different patch sizes on species richness, an index to quantify those changes, and a second graph using the index to visualize the effect of distance between patches on species richness. After applying our framework and tools to the Tropical Andes, we found strong differences in the impact of natural vs. human-driven fragmentation on richness between biomes. When projecting future richness values under climate change scenarios, the largest sources of uncertainty in our richness calculation (>90%) were species turnover among patches and species dispersal for most of the biomes rather than future climate or species tolerance to human activities. Habitat loss consistently decreased the species richness; however, fragmentation per se often increased it. The increment was mostly linked to the species turnover rate among patches. Our framework is a new theoretical tool to study the main patterns that underlie regional richness and therefore can provide new insights to face spatial habitat reconfiguration caused by human activities. [ABSTRACT FROM AUTHOR]

Published
2017
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31. Diverging Responses of Tropical Andean Biomes under Future Climate Conditions

Author

Tovar, Carolina, Arnillas, Carlos Alberto, Cuesta, Francisco, and Buytaert, Wouter

Subjects
*CLIMATE change, *ATMOSPHERIC models, *BIOTIC communities, *LAND use, *LOGISTIC regression analysis, *ENERGY conservation
Abstract

Observations and projections for mountain regions show a strong tendency towards upslope displacement of their biomes under future climate conditions. Because of their climatic and topographic heterogeneity, a more complex response is expected for biodiversity hotspots such as tropical mountain regions. This study analyzes potential changes in the distribution of biomes in the Tropical Andes and identifies target areas for conservation. Biome distribution models were developed using logistic regressions. These models were then coupled to an ensemble of 8 global climate models to project future distribution of the Andean biomes and their uncertainties. We analysed projected changes in extent and elevational range and identified regions most prone to change. Our results show a heterogeneous response to climate change. Although the wetter biomes exhibit an upslope displacement of both the upper and the lower boundaries as expected, most dry biomes tend to show downslope expansion. Despite important losses being projected for several biomes, projections suggest that between 74.8% and 83.1% of the current total Tropical Andes will remain stable, depending on the emission scenario and time horizon. Between 3.3% and 7.6% of the study area is projected to change, mostly towards an increase in vertical structure. For the remaining area (13.1%–17.4%), there is no agreement between model projections. These results challenge the common believe that climate change will lead to an upslope displacement of biome boundaries in mountain regions. Instead, our models project diverging responses, including downslope expansion and large areas projected to remain stable. Lastly, a significant part of the area expected to change is already affected by land use changes, which has important implications for management. This, and the inclusion of a comprehensive uncertainty analysis, will help to inform conservation strategies in the Tropical Andes, and to guide similar assessments for other tropical mountains. [ABSTRACT FROM AUTHOR]

Published
2013
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32. Fruitbody and root data infer different environmental niches for ectomycorrhizal fungi.

Author

Qi, Muyao, Suz, Laura M., Bidartondo, Martin I., Orme, C. David L., Delhaye, Guillaume, Openshaw, Isabel, and Tovar, Carolina

Subjects
*ECTOMYCORRHIZAL fungi, *FUNGAL communities, *ECTOMYCORRHIZAS, *GRID cells, *MYCORRHIZAL fungi, *SPECIES distribution, *VESICULAR-arbuscular mycorrhizas, *MUSHROOMS
Abstract

Aim Location Taxon Methods Results Main Conclusion We used two fungal data sources for occurrence records (fruitbodies and roots) to (1) test the influence of data source on estimating the environmental niche of ectomycorrhizal (ECM) fungi and (2) compare the differences in estimated niche area and density for ECM fungal species with conspicuous (easily observed, i.e. mushrooms) versus inconspicuous (difficult to observe and/or usually overlooked, i.e. crusts and truffles) fruitbodies.Europe.Sixty‐six ectomycorrhizal fungi.We used fungal records obtained from fruitbody and root data of 66 common ECM fungal species in European forests to estimate their environmental niches. The fruitbody data were extracted from public databases (GBIF, UNITE), while the root data (from individual ectomycorrhizas) were obtained from a dataset of 136 ICP Forests long‐term intensive monitoring plots. We estimated the niches for combined data sources (fruitbody and root data) and for each individual data source using six key environmental variables for ECM fungal community composition. We then examined how estimated niche overlap and area (number of cells in niche grid) varied for the two data sources between conspicuous and inconspicuous species.We found that although the niches estimated using combined data from the two data sources had high overlap with the niches estimated from fruitbody data, the niches estimated from fruitbody data had low or medium overlap with the niches estimated using root data for most ECM fungi. The overlap between the two data sources for conspicuous species was significantly larger than that for inconspicuous species. Root data were important for estimating the niche of inconspicuous species, which had a high ratio of root data to fruitbody data.Our results indicate that although fruitbody data suffice for estimating the environmental niche for most conspicuous ECM fungi, combined datasets including fruitbody and root data can improve the accuracy of estimated niches and should be used. Root data for inconspicuous species are particularly useful, and thus, adopting root data in niche estimation will better infer the niches of ECM fungi. Inferring niches along environmental variables can guide future sampling and conservation of fungi. [ABSTRACT FROM AUTHOR]

Published
2024
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33. Vegetation response to climate change : a functional traits-based approach

Author

Kühn, Nicola, Macias Fauria, Marc, Willis, Katherine, and Tovar, Carolina

Subjects
Remote-sensing maps, Arid regions, Vegetation and climate, Drought-tolerant plants, Plant allometry, Roots (Botany), Ecology
Abstract

Climate change influences all aspects of plant biology. The responses of vegetation to climate changes (particularly water availability in the world's drylands) constitute a critical and timely research agenda, with potentially significant ecological consequences. This doctoral thesis aimed to investigate vegetation response to climate change using a plant functional traits-based approach, with a specific focus on root traits in Southern Africa by undertaking three interlinked research objectives: i) Determination of globally important plant functional traits for coping with climate change (Chapter 4; Research Paper 1). Here the aim was to synthesize the knowledge to date from the published literature on which traits are important in determining a positive response in plant performance and fitness to climate and associated environmental changes. A systematic review of 148 studies published between 2000-2017 was carried out. Results from this work present a suite of eight key traits that best predict positive plant responses: greater water-use efficiency (WUE), greater resprouting ability, lower relative growth rate, greater clonality/bud banks/below-ground storage, higher wood density, greater rooting depth, lower or higher specific leaf area (SLA) and lower or higher plant height (the latter two varying across biomes). These findings illustrate important and general trait-climate responses within and between biomes that enhance understanding of which plant phenotypes may cope with or thrive under current and future climate change. They also highlight the importance of generally understudied belowground traits in conferring plants the ability to cope with climate change. ii) Determination of how root traits vary within a dry biome (Chapter 5; Research Paper 2). Here the aim was to quantify the contribution of belowground traits to overall trait variation in the semi-arid Fynbos biome of South Africa and analyse how this changed along regional and local water availability gradients. Fieldwork was conducted to collect root and aboveground traits of 124 individuals of dominant woody shrub species. Results from this work show that drier regions have greater root investment (rooting depth, length, dry matter content and root:shoot ratio) which was consistent intra-specifically and in post-fire environments. Additionally, roots accounted for significant whole-plant trait variation and, importantly, in drier conditions increased root allocation (at the expense of shoot allocation) deviated from expected global allometric relationships. These findings suggest that root investment will be especially crucial for plant performance and survival in a drier and warmer future predicted for dryland biomes. Chapter 5 (Research Paper 2) thus contributes to the still deficient field data on belowground traits in drylands. iii) Determination of the role that roots play in reducing sensitivity to climate variability in drylands (Chapter 6; Research Paper 3). Here the aim was to use empirical belowground trait data and remote sensing imagery to explore belowground processes with space-borne, spatially continuous data that allow for regional assessments. A statistical analysis was conducted on the relationship between root depth data and remotely derived vegetation sensitivity to climate variability (VSI, after Seddon et al. (2016)) in Southern Africa. Results from this work show that a significant negative relationship between root depth and vegetation sensitivity exists in Southern Africa, as well as a significant positive relationship between root depth and temporal autocorrelation in vegetation productivity. These relationships were influenced by both biome and growth form, but generally imply that deeper roots reduce vegetation responses to concurrent climate variability and dampen temporal variability in aboveground productivity. These findings suggest that accessing deeper water resources during times of water stress through deeper roots is a potential resilience mechanism for drylands under future climate change. In this thesis I conclude that traits play a key role in determining vegetation response to climate change. Specifically, I conclude that in dry biomes often-neglected root traits contribute significantly to overall plant trait variation and are thus key in reducing sensitivity to climate variability and determining positive plant responses to climate change. The novelty of this body of work includes but is not limited to the following findings: i) there is a global set of traits important across biomes to cope with multiple climate changes, ii) both local and regional drivers of water availability are significant drivers of belowground trait variation in the semi-arid Fynbos biome of South Africa and, iii) aboveground plant-climate interactions are reflected by belowground trait.

Published
2022

34. Peru's zoning amendment endangers forests.

Author

Martel C, Mendieta-Leiva G, Alvarez-Loayza PC, Cano A, Cosio EG, Decock C, Farfan-Rios W, Feeley K, Honorio Coronado E, Huamantupa I, Ibañez AJ, Koepcke de Diller J, León B, Linares-Palomino R, Marcelo Peña JL, Millán B, Moat JF, Pennington RT, Pitman N, Salinas N, Rojas-VeraPinto R, Stevenson PC, Tovar C, Whaley OQ, and Young KR

Subjects
Peru, Forests
Published
2024
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