Your search keyword '"Patricia Jaramillo Díaz"' showing total 7 results

1. Confirmed presence of Clathrus columnatus Bosc (Phallales, Clathraceae) in the Galapagos Islands, Ecuador

Author

Justine Villalba-Alemán, Paúl Mayorga, C. Miguel Pinto, and Patricia Jaramillo Díaz

Subjects

Basidiomycota, citizen science, clathroids, gaster, Biology (General), QH301-705.5

Abstract

In July 2022, we collected three groups of Clathrus columnatus Bosc (Clathraceae) specimens (four mature and eight immature basidiomata) from Santa Cruz Island, Galapagos. We report these specimens as the first confirmed records of this species from the Galapagos Archipelago and Ecuador. We hypothesize that C. columnatus constitutes a recent introduction to the islands. We provide macro- and microscopic descriptions, including photographs of fresh and fluid-preserved basidiomata, and comments on the species’ taxonomy, ecology, and distribution.

Published

2023

2. Enhancing restoration success of rare plants in an arid-tropical climate through water-saving technologies: a case study of Scalesia affinis ssp. brachyloba in the Galapagos Islands

Author

Esme Plunkett, Luka Negoita, Christian Sevilla, Nicolás Velasco, and Patricia Jaramillo Díaz

Subjects

Ecological restoration, Galapagos, Scalesia affinis, Groasis Waterboxx, Endemic, Plants, Medicine, Biology (General), QH301-705.5

Abstract

Arid tropical archipelagos, such as the Galapagos Islands, host a high concentration of endemic plant species, many of which require restoration intervention to recover from past environmental degradation. Water-saving technologies (WSTs) have potential for hastening restoration by providing plants with additional water during the early stages of growth. However, it remains unclear whether such technologies provide an advantage for plant species of arid-tropical regions. This study examined the effect of the water-saving technology Groasis Waterboxx® (Groasis) on the rare endemic plant species Scalesia affinis ssp. brachyloba during early stages of restoration. Survival was monitored for 374 individuals planted across six sites on Santa Cruz Island, Galapagos (326 with technology and 48 as controls). Kaplan-Meier survival analysis showed that the use of Groasis reduced mortality during the first two years of the seedling survival. A mixed-effect logistic regression that modelled plant survival as a function of total precipitation, maximum temperature, and WST treatment (Groasis and no-technology control) found that despite low overall survival rates, plants grown with Groasis exhibited a three-fold higher predicted survival by the end of the 3.7 year duration of the study. Finally, through a resampling method, we demonstrate that the effect of the WST treatment is not dependent on the unbalanced design typical of a restoration project framework. We conclude that water-saving technologies such as the Groasis Waterboxx® can enhance survival of rare plant species such as S. affinis ssp. brachyloba in restoration programs in arid-tropical regions.

Published

2023

3. The genomic basis of the plant island syndrome in Darwin’s giant daisies

Author

José Cerca, Bent Petersen, José Miguel Lazaro-Guevara, Angel Rivera-Colón, Siri Birkeland, Joel Vizueta, Siyu Li, Qionghou Li, João Loureiro, Chatchai Kosawang, Patricia Jaramillo Díaz, Gonzalo Rivas-Torres, Mario Fernández-Mazuecos, Pablo Vargas, Ross A. McCauley, Gitte Petersen, Luisa Santos-Bay, Nathan Wales, Julian M. Catchen, Daniel Machado, Michael D. Nowak, Alexander Suh, Neelima R. Sinha, Lene R. Nielsen, Ole Seberg, M. Thomas P. Gilbert, James H. Leebens-Mack, Loren H. Rieseberg, and Michael D. Martin

Subjects

Science

Abstract

Many island plant species share a syndrome of characteristic phenotype and life history. Cerca et al. find the genomic basis of the plant island syndrome in one of Darwin’s giant daisies, while separating ancestral genomes in a chromosome-resolved polyploid assembly.

Published

2022

4. Water-Saving Technologies in Galapagos Agriculture: A Step towards Sustainability

Author

Patricia Jaramillo Díaz, Anna Calle-Loor, Nicolás Velasco, and David Cevallos

Subjects

Galapagos, Groasis Growboxx®, Hydrogel, individual fruit weight, maximum height, number of fruits, Plant culture, SB1-1110

Abstract

Water scarcity and salinity pose significant challenges for agriculture in the Galapagos Islands, severely limiting crop yields needed to sustainably meet the growing demands of the human population in the archipelago. To address this issue, environmentally friendly water-saving technologies such as Hydrogel and Groasis Growboxx were considered to be potential solutions. This study focused on evaluating the effectiveness of Hydrogel application on five crops: Broccoli (Brassica oleracea), Cucumber (Cucumis melo), Pepper (Capsicum annuum), Tomato (Solanum lycopersicum), and Watermelon (Citrullus lanatus), from 2017 to 2018. The experiment stopped due to the pandemic in 2019–2020. When the study continued in 2021, Growboxx® was introduced as a treatment for Pepper and Tomato. This study revealed that the application of Hydrogel resulted in enhanced yields, with the degree of improvement varying across different crops and cultivation periods. Notably, when comparing Hydrogel and Growboxx treatments, differences of up to 30% in fruit weight were observed. However, it is important to note that these results can vary in different environments. For example, in Tomato cultivation, Growboxx exhibited 10% higher fruit weight in San Cristobal compared to Santa Cruz Island. Our findings provide valuable insights for stakeholders in the Galapagos Islands, offering crop-specific guidance to support informed decisions on adopting the most appropriate technologies for their farms.

Published

2023

5. Adoption of Sustainable Agriculture Practices through Participatory Research: A Case Study on Galapagos Islands Farmers Using Water-Saving Technologies

Author

Patricia Jaramillo Díaz, Anna Calle-Loor, Ekaterina Gualoto, Carlos Bolaños, and David Cevallos

Subjects

productivity traits, Groasis Waterboxx®, individual fruit weight, wet-warm, dry-cold season, Santa Cruz, Botany, QK1-989

Abstract

Agriculture in the populated islands of the Galapagos Archipelago, a protected area due to its unique biodiversity, has been detrimental to its conservation but highly required to meet food necessities. A potential solution to make agricultural farming more sustainable is adopting water-saving technologies (WSTs). Therefore, this study aimed to test the effectiveness of using WSTs such as Groasis Waterboxx® in three of the most valuable crops in the islands through participatory research with the involvement of a group of farmers from the Floreana and Santa Cruz islands and explore a possible transition to more sustainable agricultural practices. Capsicum annuum, Cucumis sativus and Solanum lycopersicum were cultivated using Groasis Waterboxx® and compared to conventional irrigation practices (drip-irrigated controls) to assess the variability of productivity, the number of fruits and individual fruit weight (IFW). In addition, differences in plant traits were analyzed by crop, and island. Results suggested that WSTs such as Groasis Waterboxx® may provide on-farm benefits regarding the yields of the studied traits. From this study, it is difficult to determine whether participation in such a research study will permanently change irrigation practices. However, the participant’s responses to the study suggest an increase in their understanding of the use and benefits of WST.

Published

2022

6. The Genus Kalanchoe (Crassulaceae) in Ecuador: From Gardens to the Wild

Author

Anahí Vargas, Ileana Herrera, Neus Nualart, Anne Guézou, Carlos Gómez-Bellver, Efraín Freire, Patricia Jaramillo Díaz, and Jordi López-Pujol

Subjects

invasive alien species, biological records, Bryophyllum, Galapagos Islands, protected areas, Botany, QK1-989

Abstract

The genus Kalanchoe, mostly indigenous from Madagascar and Tropical Africa, is widely traded for ornamental value. In this study, we provided an updated list of wild and cultivated Kalanchoe taxa in Ecuador; we analyzed the temporal–spatial pattern of their records, and we categorized the invasion status for each taxon and its environment preferences. The records of any taxa belonging to this genus were compiled from an extensive search using various information sources. Our results confirmed the presence of 16 taxa of Kalanchoe in the country. Seven species and a hybrid were detected in the wild. Kalanchoe densiflora, K. laxiflora, K. pinnata, K. tubiflora, and K. ×houghtonii were categorized as invasive. We detected invasive records of some of these plants in protected areas. Almost all taxa had at least one record as cultivated, suggesting that the invasion pathway is ornamental trade. Kalanchoe pinnata individuals in the wild were recorded in the four biogeographic regions of Ecuador, which could be associated with the wide range of precipitations and temperatures in which the species may dwell. Our study highlights the importance of reducing the ornamental value and limiting the use of Kalanchoe taxa with invasive potential in horticulture and promoting, instead, the use of indigenous species.

Published

2022

7. Potential model of Scalesia pedunculata carbon sequestration through restoration efforts in agricultural fields of Galapagos.

Author

Nicolás Velasco and Patricia Jaramillo Diaz

Subjects

Medicine, Science

Abstract

Scalesia pendunculata Hook.f. is the dominant tree in several highlands' areas of the Galapagos Archipelago, yet in inhabited islands the conversion to agricultural fields has reduced its cover. The transition to agroforestry systems including the species shows promising scenarios to restore its cover and to provide ecosystem services such as carbon sequestration. Here, based on field gathered data, we model the potential contribution of S. pedunculata stands in the carbon sequestration of Galapagos. Between 2013-2021, 426 S. pedunculata seedlings were planted in the highlands of Santa Cruz and Floreana islands using several restoration technologies, and their height and survival were monitored every three months. A sub-sample of 276 trees alive since 2020 was used to estimate the DBH based on plant age and height. Based on scientific literature, biomass and carbon content were estimated across time. The final modelling included the density of plants in the restoration sites, estimated DBH, potential survival by restoration treatment, and a Brownian noise to add stochastic events. Overall, survival of S. pedunculata was high in control and slightly increased by most restoration treatments. A stand of 530 trees/ha was projected to sequester ~21 Mg C/ha in 10 years. If this is replicated over all Galapagos coffee production would contribute to the reduction of -1.062% of the Galapagos carbon footprint for the same period. This study adds to compiling benefits of restoring Galapagos flora.

Published

2024