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Keywords = Araucaria araucana

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12 pages, 1158 KB  
Article
Variation in Branch Volatile Organic Compounds of Healthy and Leaf-Damaged Araucaria araucana in Two Chilean National Parks
by Washington Aniñir, Leonardo Bardehle, Cristian Montalva, Andrés Quiroz and Javier Espinoza
Forests 2026, 17(4), 441; https://doi.org/10.3390/f17040441 - 1 Apr 2026
Viewed by 682
Abstract
Araucaria araucana (Molina) K. Koch, an endemic conifer of Chile and Argentina, has been severely impacted in recent years by Araucaria Leaf Damage (ALD). Previous research has established that volatile organic compounds (VOCs) released by healthy (H) and leaf-damaged (LD) Araucaria araucana branches [...] Read more.
Araucaria araucana (Molina) K. Koch, an endemic conifer of Chile and Argentina, has been severely impacted in recent years by Araucaria Leaf Damage (ALD). Previous research has established that volatile organic compounds (VOCs) released by healthy (H) and leaf-damaged (LD) Araucaria araucana branches modulate the behavior of Sinophloeus porteri. Specifically, myrcene, the most abundant compound in healthy branches, acts as a repellent to this insect, whereas hibaene, found in high concentrations in leaf-damaged tissue, acts as an attractant. This study compared the chemical profiles of healthy and leaf-damaged branches across two distinct geographic areas: Nahuelbuta (PNN) and Villarrica (PNV) National Parks. Following VOC capture using Porapak Q and subsequent GC-MS analysis, 31 compounds were detected and 29 were identified. The results indicate that hibaene was consistently detected across health categories, whereas camphor was particularly abundant in leaf-damaged trees from PNV. Overall, the data suggest that tree health status is associated with marked changes in VOC profiles, although the present design does not allow constitutive and induced responses to be fully disentangled. Consequently, monitoring these volatile emissions represents a strategic tool for the early detection and mitigation of damage caused by pests and diseases in these forest ecosystems. Full article
(This article belongs to the Section Forest Health)
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18 pages, 3851 KB  
Article
Beneficial Effects of a Root-Endophytic Bacterium with Quorum-Sensing Traits on Growth and Drought Tolerance in the Vulnerable Conifer Araucaria araucana
by Javier Ortiz, Nicolás Bustamante Herrera, Nathalia Baptista Dias, Catalina Vidal, Antonieta Ruiz, Omar Lora Peña, Bibiana Monson de Souza, Mario Sergio Palma, María de la Luz Mora, César Arriagada-Escamilla and Javiera Soto
Plants 2026, 15(5), 757; https://doi.org/10.3390/plants15050757 - 1 Mar 2026
Viewed by 846
Abstract
Climate change-induced drought threatens the persistence of Araucaria araucana, an endangered and endemic conifer of the Southern Andes. Beneficial plant–microbe interactions may contribute to drought resilience. Here, we evaluated the effects of a root-endophytic bacterium with the capacity to produce N-acyl homoserine [...] Read more.
Climate change-induced drought threatens the persistence of Araucaria araucana, an endangered and endemic conifer of the Southern Andes. Beneficial plant–microbe interactions may contribute to drought resilience. Here, we evaluated the effects of a root-endophytic bacterium with the capacity to produce N-acyl homoserine lactones (AHLs) on the growth and drought tolerance of A. araucana. For this, a root endophytic bacterium was isolated from A. araucana and identified as Erwinia billingiae. It was characterized for plant growth-promoting traits, and inoculated into A. araucana seedlings under drought conditions). The bacteria produced N-butyryl-L-homoserine lactone (C4-HSL) under control conditions and C4-HSL and N-hexanoyl-L-homoserine lactone (C6-HSL) under drought stress. The strain also produces indoleacetic acid, ammonia, siderophores and solubilizes phosphate. Under drought stress, non-inoculated seedlings showed marked reductions in shoot and root biomass, chlorophyll content, relative water content (RWC), and soluble sugars. In contrast, inoculated seedlings under drought displayed significantly higher shoot and root biomass, reaching levels comparable to those of well-watered controls. Chlorophyll content increased from 5.42 to 9.35 mg L−1, and RWC increased from 62% to 71% in inoculated plants under drought conditions. Soluble sugar content increased from 25.74 to 36.34 mg g−1 fresh weight following inoculation. Drought-induced oxidative stress was significantly alleviated in inoculated seedlings, with lower malondialdehyde and proline accumulation compared to non-inoculated drought-stressed plants. Antioxidant responses were modulated, indicating improved redox balance under water limitation. These results demonstrate that a root-endophytic bacterium with AHL production can enhance drought tolerance in A. araucana seedlings. This study provides novel evidence supporting the role of beneficial endophytes in microbiome-based strategies for conserving native forest species under climate change. Full article
(This article belongs to the Special Issue Plant–Microbe Interaction)
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15 pages, 754 KB  
Article
Effect of Volatile Organic Compounds from Branches of Healthy and Unhealthy Araucaria araucana (Molina) K. Koch Trees on Host Selection by Bark Beetle Sinophloeus porteri (Coleoptera: Curculionidae)
by Washington Aniñir, Leonardo Bardehle, Cristian Montalva, Andrés Quiroz and Javier Espinoza
Insects 2025, 16(7), 712; https://doi.org/10.3390/insects16070712 - 10 Jul 2025
Cited by 1 | Viewed by 1741
Abstract
Araucaria araucana is one of the longest-living Chilean trees. Recently, Araucaria Leaf Damage disease, which causes damage to branches and crowns, was detected. Sinophloeus porteri, a bark beetle affecting A. araucana, could be associated with foliar damage. However, little is known [...] Read more.
Araucaria araucana is one of the longest-living Chilean trees. Recently, Araucaria Leaf Damage disease, which causes damage to branches and crowns, was detected. Sinophloeus porteri, a bark beetle affecting A. araucana, could be associated with foliar damage. However, little is known about their ecological and chemical interactions. This study examined the olfactory response of S. porteri to volatiles emitted from A. araucana. Branches and weevils were collected from a national park, and volatiles were trapped from both healthy and unhealthy branches. Thirty terpenes were identified, some of which were reported for the first time in A. araucana. Healthy branches emitted large amounts of myrcene (>360 ng g−1 day−1), and unhealthy branches showed high hibaene emanations (>140 ng g−1 day−1). Olfactory assays verified that S. porteri was attracted to the volatile blends of branches, regardless of the health condition of the branches, but preferred the blend of unhealthy branches. Moreover, myrcene was repellent to these weevils, and hibaene acted as an attractant, suggesting that A. araucana might use myrcene for defense against S. porteri, and hibaene could stimulate host selection by beetles. Full article
(This article belongs to the Section Insect Pest and Vector Management)
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14 pages, 12299 KB  
Article
Induction of Somatic Embryogenesis in Araucaria araucana (Molina) K. Koch: Considerations for Ex Situ Conservation of Ancient Tree in Chile
by Daniela Riffo-Agurto, Neusa Steiner, Priscila Cartes, Pamela Quiroga, Jaime Espejo, Ester San Martin, Jean-Pierre Lasserre, Marcos Edel Martínez-Montero, Martha Hernández de la Torre, Darcy Ríos-Leal, Roberto Ipinza, Simón Sandoval and Manuel Sánchez-Olate
Forests 2025, 16(5), 732; https://doi.org/10.3390/f16050732 - 25 Apr 2025
Viewed by 1899
Abstract
Araucaria araucana is an emblematic native conifer from Chile and Argentina that has been classified as threatened due to anthropogenic activities. Somatic embryogenesis (SE) is a biotechnological tool used for both the preservation of genetic material and the propagation of valuable genotypes. The [...] Read more.
Araucaria araucana is an emblematic native conifer from Chile and Argentina that has been classified as threatened due to anthropogenic activities. Somatic embryogenesis (SE) is a biotechnological tool used for both the preservation of genetic material and the propagation of valuable genotypes. The present study investigates the effects of explant source and culture medium on SE induction in A. araucana genotypes from three wild plant populations. Immature strobili were collected from different geographical provenances: a coastal area (Villa Araucarias, “VA”), Cordillera de Nahuelbuta (Trongol Alto, “TR”), and the Andes Mountains (Malalcahuello, “MA”). SE induction was observed after 45 days in a basal medium (BM) supplemented with 1-naphthaleneacetic acid (NAA—11 µM), 6-benzylaminopurine (6-BA—2.8 µM), and Kinetin (Kin—2.8 µM). The highest induction rate (75%) was achieved for seeds from VA. Embryogenic cell line (ECL) proliferation requires auxins but is genotype-dependent, as not all genotypes survive. Cytochemical analysis revealed the presence of pro-embryogenic masses (PEMs) in the ECLs, indicating an efficient SE induction protocol. The progression of PEMs to early embryos was observed in the presence of maltose (3% w/v), polyethylene glycol 3350 (PEG—7% w/v), and abscisic acid (ABA—68 µM). Our results establish a baseline for the establishment of in vitro cultures for a diverse range of A. araucana genotypes, enabling the initiation of ex situ preservation programs and further investigation into embryo maturation. Full article
(This article belongs to the Special Issue Somatic Embryogenesis and Organogenesis on Tree Species: 2nd Edition)
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13 pages, 3535 KB  
Article
Macrolichen Communities Depend on Phorophyte in Conguillío National Park, Chile
by Johana Villagra, Leopoldo G. Sancho and David Alors
Plants 2023, 12(13), 2452; https://doi.org/10.3390/plants12132452 - 26 Jun 2023
Cited by 7 | Viewed by 2655
Abstract
The community composition of epiphytic macrolichens from two tree species (Araucaria araucana and Nothofagus antarctica) was conducted in temperate forests in the Conguillío National Park, Chile. The composition of lichen biota is influenced by phorophyte species, bark pH, and microclimatic conditions. [...] Read more.
The community composition of epiphytic macrolichens from two tree species (Araucaria araucana and Nothofagus antarctica) was conducted in temperate forests in the Conguillío National Park, Chile. The composition of lichen biota is influenced by phorophyte species, bark pH, and microclimatic conditions. A total of 31 species of macrolichens were found on A. araucana and N. antarctica. Most of the species showed phorophyte preference, with nine being exclusive to A. araucana and 10 to N. antarctica. The detrended correspondence analysis (DCA) indicated the formation of three communities: one representing macrolichens growing on N. antarctica and two others growing chiefly on A. araucana, either with north or south exposure. More work is needed to study the lichen biota of the forests of the Chilean Andes, which are under multiple threats, including clearing and climate change. In order to counteract such risks to native forests and to the biodiversity of the associated epiphytic lichens, conservation plans should be established that consider the factors that influence the composition of the lichen community. Full article
(This article belongs to the Special Issue Diversity, Ecology and Taxonomy of Cryptogams)
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18 pages, 1998 KB  
Article
Contribution of Arbuscular Mycorrhizal and Endophytic Fungi to Drought Tolerance in Araucaria araucana Seedlings
by Daniel Chávez, Gustavo Rivas, Ángela Machuca, Cledir Santos, Christian Deramond, Ricardo Aroca and Pablo Cornejo
Plants 2023, 12(11), 2116; https://doi.org/10.3390/plants12112116 - 26 May 2023
Cited by 19 | Viewed by 3861
Abstract
In its natural distribution, Araucaria araucana is a plant species usually exposed to extreme environmental constraints such as wind, volcanism, fires, and low rainfall. This plant is subjected to long periods of drought, accentuated by the current climate emergency, causing plant death, especially [...] Read more.
In its natural distribution, Araucaria araucana is a plant species usually exposed to extreme environmental constraints such as wind, volcanism, fires, and low rainfall. This plant is subjected to long periods of drought, accentuated by the current climate emergency, causing plant death, especially in its early growth stages. Understanding the benefits that both arbuscular mycorrhizal fungi (AMF) and endophytic fungi (EF) could provide plants under different water regimes would generate inputs to address the above-mentioned issues. Here, the effect of AMF and EF inoculation (individually and combined) on the morphophysiological variables of A. araucana seedlings subjected to different water regimes was evaluated. Both the AMF and EF inocula were obtained from A. araucana roots growing in natural conditions. The inoculated seedlings were kept for 5 months under standard greenhouse conditions and subsequently subjected to three different irrigation levels for 2 months: 100, 75, and 25% of field capacity (FC). Morphophysiological variables were evaluated over time. Applying AMF and EF + AMF yielded a noticeable survival rate in the most extreme drought conditions (25% FC). Moreover, both the AMF and the EF + AMF treatments promoted an increase in height growth between 6.1 and 16.1%, in the production of aerial biomass between 54.3 and 62.6%, and in root biomass between 42.5 and 65.4%. These treatments also kept the maximum quantum efficiency of PSII (Fv/Fm 0.71 for AMF and 0.64 for EF + AMF) stable, as well as high foliar water content (>60%) and stable CO2 assimilation under drought stress. In addition, the EF + AMF treatment at 25% FC increased the total chlorophyll content. In conclusion, using indigenous strains of AMF, alone or in combination with EF, is a beneficial strategy to produce A. araucana seedlings with an enhanced ability to tolerate prolonged drought periods, which could be of great relevance for the survival of these native species under the current climate change. Full article
(This article belongs to the Special Issue Adaptation of Mutualistic Plant-Microbe Systems to Abiotic Stresses)
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26 pages, 5271 KB  
Article
Multiproxy Approach to Reconstruct the Fire History of Araucaria araucana Forests in the Nahuelbuta Coastal Range, Chile
by Ariel A. Muñoz, Mauro E. González, Isadora Schneider-Valenzuela, Karin Klock-Barría, Marcelo Madariaga-Burgos, Carmen Gloria Rodríguez, Ana M. Abarzúa, María Eugenia Solari, Alejandra Martel-Cea, Bárbara Velásquez, Beatriz Paredes, Fabián Guerrero, Mauricio Montiel, Valeria Tapia-Marzán, Tomás Riquelme and Paul R. Sheppard
Forests 2023, 14(6), 1082; https://doi.org/10.3390/f14061082 - 24 May 2023
Cited by 6 | Viewed by 4513
Abstract
Multiproxy reconstructions of fire regimes in forest ecosystems can provide a clearer understanding of past fire activity and circumvent some limitations of single proxy reconstructions. While inferring fire history from scars in trees is the most precise method to reconstruct temporal fire patterns, [...] Read more.
Multiproxy reconstructions of fire regimes in forest ecosystems can provide a clearer understanding of past fire activity and circumvent some limitations of single proxy reconstructions. While inferring fire history from scars in trees is the most precise method to reconstruct temporal fire patterns, this method is limited in Araucaria araucana forests by rot after fire injuries, successive fires that destroy the evidence and the prohibition of sample extraction from living Araucaria trees. In this context, dendrochemical studies in Araucaria trees and charcoal analysis from sediment cores can complement and extend the time perspective of the fire history in the relictual Araucaria-Nothofagus forests of the coastal range. We used dendrochemical, fire scar and charcoal records from the Nahuelbuta Coastal Range (37.8° S; 73° W) spanning the last 1000 years to reconstruct the fire history. The results indicate that periods with higher fire activity occurred between 1400 and 1650 AD. Long-term changes in the fire regime are related to increased climate variability over the last 1000 years, and especially with the arrival of settlers to the area after 1860 CE. The most severe fire events in the Nothofagus and Araucaria forests occurred when suitable fire-prone conditions were superimposed with high human densities. Full article
(This article belongs to the Section Forest Ecology and Management)
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20 pages, 5440 KB  
Article
Validation by SSRs of Morphometric Markers for Genetic Variability in Araucaria araucana (Molina) K. Koch
by Stefania Nin, Maurizio Antonetti, Gianluca Burchi, Massimo Gori and Lorenzo Bini
Forests 2023, 14(3), 466; https://doi.org/10.3390/f14030466 - 24 Feb 2023
Cited by 3 | Viewed by 2327
Abstract
Araucaria araucana is an important seed and timber-yielding tree that grows naturally in the tropical and subtropical regions of the Andes in Argentina and Chile, and has also been introduced as an ornamental species in Europe. Genetic diversity has been observed in A. [...] Read more.
Araucaria araucana is an important seed and timber-yielding tree that grows naturally in the tropical and subtropical regions of the Andes in Argentina and Chile, and has also been introduced as an ornamental species in Europe. Genetic diversity has been observed in A. araucana native populations, but there have been no prior studies on the genetic diversity estimates of this species introduced in Europe. On the other hand, assessment of the genetic variation in Araucaria populations occurring in Europe might be an important tool in the selection of appropriate germplasms for ornamental nursery production and breeding strategies. In this study, morphological and genetic diversity was analysed using a previously defined descriptor list and SSR molecular markers in four putative populations of A. araucana, individuated in the Pistoia Nursery District (Tuscany, Italy). In total, 26 morphological descriptors and 28 SSR primer pairs were used for a diversity assessment of specimens. Results provide evidence for genetic and morphological correspondence among the four putative Araucaria populations. PCA and cluster analyses based on morphological traits clearly revealed three distinct clusters of specimens. SSR primers yielded 68% polymorphic loci among the considered populations, and 18 of them displayed informativeness for population genetics, according to a Polymorphic Information Content value larger than 0.25. This marker set revealed significant genetic differentiation, and UPGMA analysis enabled separation of these populations on the basis of their genetic distances into three main groups, which largely overlapped with clusters in the dendrogram obtained from the morphological data. In particular, in both cluster diagrams, all accessions belonging to a specific population were well separated from all the others due to matrix distances and differences in the canopy density that are more similar to conifers such as spruce, pine, or fir. ANOVA analysis and the FST value indicated a large between-population genetic variation. The Mantel test suggested that genetic differentiation between the four studied populations was positively correlated with morphological distance (r = 0.141, p < 0.05). Thus, both morphological and genetic markers showed applicability across populations of different seed origins and proved suitable for the identification and characterization of A. araucana accessions. Full article
(This article belongs to the Section Genetics and Molecular Biology)
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16 pages, 5702 KB  
Article
Pinus contorta Alters Microenvironmental Conditions and Reduces Plant Diversity in Patagonian Ecosystems
by Rafael A. García, Eduardo Fuentes-Lillo, Lohengrin Cavieres, Ana J. Cóbar-Carranza, Kimberley T. Davis, Matías Naour, Martín A. Núñez, Bruce D. Maxwell, Jonas J. Lembrechts and Aníbal Pauchard
Diversity 2023, 15(3), 320; https://doi.org/10.3390/d15030320 - 22 Feb 2023
Cited by 25 | Viewed by 4878
Abstract
Pinus contorta is considered one of the most invasive tree species worldwide, generating significant impacts on biodiversity and ecosystems. In several Patagonian ecosystems in southern Chile, it has escaped from plantations established mainly in the 1970s, and is now invading both forests and [...] Read more.
Pinus contorta is considered one of the most invasive tree species worldwide, generating significant impacts on biodiversity and ecosystems. In several Patagonian ecosystems in southern Chile, it has escaped from plantations established mainly in the 1970s, and is now invading both forests and treeless environments. In this study, we evaluated the impact of the invasion of P. contorta on microenvironmental conditions in Araucaria araucana forest and Patagonian steppe ecosystems, and assessed how these changes related to the richness and abundance of native and non-native plant species. In each ecosystem, 24 plots of 100 m2 were established along a gradient of P. contorta biomass, where 18 environmental variables and the composition of native and non-native vegetation were measured at a local scale. Our results indicated that increased pine biomass was associated with differences in microclimatic conditions (soil and air temperature, photosynthetically active radiation (PAR), and soil moisture) and soil properties (potassium, nitrate, pH, and litter accumulation). These changes were ecosystem dependent, however, as well as associated with the level of invasion. Finally, the reduction in the richness and abundance of native plants was associated with the changes in soil properties (accumulation of leaf litter, pH, and organic matter) as well as in the microclimate (minimum air temperature, PAR) generated by the invasion of P. contorta. Overall, our results confirm that the invasion of P. contorta impacts microenvironmental conditions (i.e., canopy cover, litter accumulation, minimum air temperature, and maximum soil temperature) and reduces native plant diversity. For future restoration plans, more emphasis should be given to how environmental changes can influence the recovery of invaded ecosystems even after the removal of the living pine biomass (i.e., legacy of the invasion). Full article
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11 pages, 2506 KB  
Brief Report
Fire Severity Causes Temporal Changes in Ground-Dwelling Arthropod Assemblages of Patagonian Araucaria–Nothofagus Forests
by Alfredo H. Zúñiga, Jaime R. Rau, Andrés Fierro, Pablo M. Vergara, Francisco Encina-Montoya, Andrés Fuentes-Ramírez and Fabian M. Jaksic
Fire 2022, 5(5), 168; https://doi.org/10.3390/fire5050168 - 18 Oct 2022
Cited by 4 | Viewed by 2937
Abstract
Fire is one of the main drivers of anthropogenic disturbances in temperate forest ecosystems worldwide, with multiple effects spread across ecological networks. Nevertheless, the biodiversity effects of fire are poorly known for species-diverse groups such as arthropods. In this research, we used a [...] Read more.
Fire is one of the main drivers of anthropogenic disturbances in temperate forest ecosystems worldwide, with multiple effects spread across ecological networks. Nevertheless, the biodiversity effects of fire are poorly known for species-diverse groups such as arthropods. In this research, we used a burn gradient generated two and three years after a large fire event to assess how different levels of fire severity affect arthropod diversity in the forest with the main forest forming long-living tree species Araucaria araucana, in southern Chile. The species richness and abundance of arthropods among trophic guilds was estimated annually in four fire-severity levels. We found that arthropods responded differently to fire severity levels, depending on their trophic guilds and years after fire (two and three years after fire). During the second year after fire, zoophages, phytophages, and parasitoids were more diverse in areas with high fire severity within the second year after fire, as compared to those in areas with low severity or unburned stands. In the third year after fire, a change in this trend was observed, where the abundance of all groups dropped significantly, with positive changes in the diversity in zoophages, phytophages, polyphages and saprophages, which is more noticeable in sites with high severity. These results indicate that annual variation in environmental conditions triggers bottom-up cascading effects for arthropods. Forests stands severely impacted by fires support highly fluctuating and possibly unstable arthropod assemblages. Hence, restoration efforts should be focused on recovering microhabitat conditions in these stands to allow the persistence of arthropods. Full article
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15 pages, 2785 KB  
Article
Spatio-Temporal Variation in Soil Nutrients and Plant Recovery across a Fire-Severity Gradient in Old-Growth Araucaria-Nothofagus Forests of South-Central Chile
by Andrés Fuentes-Ramirez, Leonardo Almonacid-Muñoz, Nayadeth Muñoz-Gómez and Kirk A. Moloney
Forests 2022, 13(3), 448; https://doi.org/10.3390/f13030448 - 12 Mar 2022
Cited by 14 | Viewed by 4073
Abstract
Forest fires can alter essential ecosystem processes, including soil nutrient cycling, potentially cascading into permanent vegetation changes. This is key to elucidate in ecosystems where fires are infrequent. We assessed the effects of fire severity on the spatio-temporal response of soil nutrients and [...] Read more.
Forest fires can alter essential ecosystem processes, including soil nutrient cycling, potentially cascading into permanent vegetation changes. This is key to elucidate in ecosystems where fires are infrequent. We assessed the effects of fire severity on the spatio-temporal response of soil nutrients and plant diversity in old-growth forests of south-central Chile, 1, 2, and 3 years after a fire that occurred in 2015. Within ancient, old-growth Araucaria araucana (Mol.) K. Koch and Nothofagus pumilio (Poepp. and Endl.) Krasser forests, ranging from areas burned with fire of high severity to unburned forests, we evaluated nitrogen (N), phosphorus (P), potassium (K), and soil organic matter (SOM) content using spatial interpolation to predict their spatial distribution and assessed their availability over time. We also assessed plant species richness and abundance following the fire. The availability of N noticeably increased during the first year after fire but rapidly decreased in the following years, especially in areas of high fire severity. P, K, and SOM were less affected by the fire, remaining more constant over time. In the short term, plant species richness and diversity significantly decreased in severely burned areas, but over time, they became more similar to those of the unburned forests. The time since a fire and its severity determine a heterogeneous distribution of soil nutrients, with N shifting to a significantly lower availability after fire, which was more notable in areas of high fire severity. Here, vegetation exhibited a decrease in plant diversity and the establishment of exotic species, likely producing cascading effects at the community level. Full article
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14 pages, 716 KB  
Article
Development of an Araucaria araucana Beer-like Beverage: Process and Product
by Angélica Durán, José Reyes-De-Corcuera, Gustavo Garay, Pedro Valencia and Alejandra Urtubia
Fermentation 2021, 7(3), 170; https://doi.org/10.3390/fermentation7030170 - 28 Aug 2021
Cited by 4 | Viewed by 4163
Abstract
The seed from the Araucaria araucana (in Spanish, piñon) tree, native to Chile and Argentina, is sold mainly as raw seed. Engineering a process to add value to piñon has the potential to positively impact local indigenous communities with very little ecological impact [...] Read more.
The seed from the Araucaria araucana (in Spanish, piñon) tree, native to Chile and Argentina, is sold mainly as raw seed. Engineering a process to add value to piñon has the potential to positively impact local indigenous communities with very little ecological impact because it is routinely harvested in the wild. This study evaluated the feasibility of using 100% piñon, or as a blend with barley malt, to produce a beer-like beverage, while also evaluating consumer acceptance of the beverage’s piñon characteristics. Prototypes generated based on 93% piñon and 7% oat (enzymatic treatment of α-amylase, glucoamylase, protease and β-glucanase), as well as 50% piñon and 50% barley (no external enzymatic treatment), were evaluated. Overall acceptability by a consumer acceptance panel (21 consumers) rated the 100% piñon and the piñon–barley malt blend 5/9 and 7/9, respectively. The piñon–barley malt blend prototype stood out for its low level of carbohydrates, high potassium content and banana and clove aromas. Full article
(This article belongs to the Special Issue Advances in Beverages, Food, Yeast and Brewing Research)
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18 pages, 5039 KB  
Article
Field-Validated Burn-Severity Mapping in North Patagonian Forests
by María Guadalupe Franco, Ignacio A. Mundo and Thomas T. Veblen
Remote Sens. 2020, 12(2), 214; https://doi.org/10.3390/rs12020214 - 8 Jan 2020
Cited by 46 | Viewed by 6344
Abstract
Burn severity, which can be reliably estimated by validated spectral indices, is a key element for understanding ecosystem dynamics and informing management strategies. However, in North Patagonian forests, where wildfires are a major disturbance agent, studies aimed at the field validation of spectral [...] Read more.
Burn severity, which can be reliably estimated by validated spectral indices, is a key element for understanding ecosystem dynamics and informing management strategies. However, in North Patagonian forests, where wildfires are a major disturbance agent, studies aimed at the field validation of spectral indices of burn severity are scarce. The aim of this work was to develop a field validated methodology for burn-severity mapping by studying two large fires that burned in the summer of 2013–2014 in forests of Araucaria araucana and other tree species. We explored the relation between widely used spectral indices and a field burn-severity index, and we evaluated index performance by examining index sensitivity in discriminating burn-severity classes in different vegetation types. For those indices that proved to be suitable, we adjusted the class thresholds and constructed confusion matrices to assess their accuracy. Burn severity maps of the studied fires were generated using the two most accurate methods and were compared to evaluate their level of agreement. Our results confirm that reliable burn severity estimates can be derived from spectral indices for these forests. Two severity indices, the delta normalized burn ratio (dNBR) and delta normalized difference vegetation index (dNDVI), were highly related to the fire-induced changes observed in the field, but the strength of these associations varied across the five different vegetation types defined by tree heights and tree and tall shrub species regeneration strategies. The thresholds proposed in this study for these indices generated classifications with global accuracies of 82% and Kappa indices of 70%. Both the dNBR and dNDVI classification approaches were more accurate in detecting high severity, but to a lesser degree for detecting low severity burns. Moderate severity was poorly classified, with producer and user errors reaching 50%. These constraints, along with detected differences in separability, need to be considered when interpreting burn severity maps generated using these methods. Full article
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17 pages, 3790 KB  
Article
Evaluation of the Foliar Damage That Threatens a Millennial-Age Tree, Araucaria araucana (Molina) K. Koch, Using Leaf Waxes
by Gerald Cifuentes, Sergio Contreras and Carol Cerda-Peña
Forests 2020, 11(1), 59; https://doi.org/10.3390/f11010059 - 3 Jan 2020
Cited by 8 | Viewed by 4268
Abstract
A. araucana is an endemic species of the temperate forests from Chile and Argentina; protected in both countries and categorized as in danger of extinction. Individuals of this species have begun to show foliar damage (i.e., discoloration) in branches and upper parts. The [...] Read more.
A. araucana is an endemic species of the temperate forests from Chile and Argentina; protected in both countries and categorized as in danger of extinction. Individuals of this species have begun to show foliar damage (i.e., discoloration) in branches and upper parts. The discoloration begins from the base to the top and from the trunk to the branches with necrotic rings appearing; in some cases causing death; and is currently attributed to an as yet unknown disease. This study focuses on the first protective layer of plants against environmental stress and pathogens; known as leaf waxes. The abundance and distribution of three classes of leaf waxes (long chain fatty acids; alkanes and alcohols) were measured in healthy individuals of A. araucana from different sites and individuals that present foliar damage (sick individuals). In the case of sick individuals; their leaf waxes were measured considering the level of leaf damage; that is; leaves without; medium and full foliar damage. The most abundant class of leaf wax in both sick and healthy individuals was fatty acids; followed by alkanes and then alcohols; with common dominant chains; C28 fatty acid; C29 alkane and C24 alcohol. Sick individuals have higher abundances of alkanes and alcohols than healthy individuals. The leaves of sick individuals have lower values of distribution indices (the carbon preference index of fatty acids and average chain length of alkanes) as foliar damage increases that are interpreted as a reduction of in vivo biosynthesis of waxes. This is the first evidence of A. araucana response to a still unknown disease that is killing individuals of this endemic species. Full article
(This article belongs to the Section Forest Ecology and Management)
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