Your search keyword '"van Melis, Juliano"' showing total 3 results

1. Multifunctional soil recovery during the restoration of Brazil's Atlantic Forest after bauxite mining.

Author

Bizuti, Denise T. G., Robin, Agnès, Soares, Thaís M., Moreno¹, Vanessa S., Almeida, Danilo R. A., Andreote, Fernando D., Casagrande, José Carlos, Guillemot, Joannès, Herrmann, Laetitia, van Melis, Juliano, Perim, Júlia E. L., de Medeiros, Simone D. S., Sorrini, Taísi B., and Brancalion, Pedro H. S.

Subjects

FOREST soils, TOPSOIL, FOREST restoration, BAUXITE, SOILS, SOIL restoration, RESTORATION ecology

Abstract

Copyright of Journal of Applied Ecology is the property of Wiley-Blackwell and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2022

2. On the Need for Innovation in Ecological Restoration.

Author

Brancalion, Pedro H. S. and van Melis, Juliano

Subjects

RESTORATION ecology, ECOLOGY, GREEN technology, TECHNOLOGICAL innovations, ENVIRONMENTAL sciences, INVESTMENTS

Abstract

Society has high expectations regarding the potential of ecological restoration to help confront the global environmental crisis, but the huge gap between restoration science and practice may undermine the recovery of native ecosystems in vast areas of degraded lands. In this paper, we explore the potential application of an innovation approach to bridge the gap between knowledge and action in restoration. The most promising innovation strategy for restoration is the adaptation of solutions developed in other fields of activity, for which market forces have historically supported programs of research and development. However, innovations in restoration may not rely only on technological tools requiring high investments. Rather, there are many opportunities for making better use of the existing funds and for low-cost solutions if restoration science and practice are reframed and integrated. If research projects are conceived to promote a co-production of knowledge with end users, valuable solutions for restoration problems may arise without extra investments. For restoration practice, substantial advances in our capacity to revert degradation could be obtained by shifting the focus from plot-scale, expensive solutions to the promotion of natural regeneration in sites where it is ecologically viable and socioeconomically feasible. For capacity building, promising approaches include emulating other models of technology transfer, mainly those used in agriculture, and fostering the use of web-based solutions. For governance, we recommend the promotion of 'policy triggers' and better use of technology to obtain and integrate information. Finally, multi-stakeholder coalitions may contribute by linking these different fields of restoration and promoting the co-creation of solutions in complex socio-ecological systems. Large-scale restoration will not be achieved by the simple sum of small-scale projects implemented by traditional restoration approaches, so innovation can play an utmost role to fulfill the decades-old promise of restoration to reverse degradation at the landscape scale. [ABSTRACT FROM AUTHOR]

Published

2017

3. Artificial enrichment in the Atlantic Forest

Author

Laíne Silveira Corrêa, Rodrigues, Ricardo Ribeiro, Koch, Ingrid, Van Melis, Juliano, Gandolfi, Sergius, Garcia, Letícia Couto, Universidade Estadual de Campinas. Instituto de Biologia, Programa de Pós-Graduação em Biologia Vegetal, and UNIVERSIDADE ESTADUAL DE CAMPINAS

Subjects

Restoration ecology, Avaliação de custo-efetividade, Forest restoration, Florestas - Conservação, Cost-effectiveness evaluation, Ecologia florestal, Forest ecology, Restauração florestal, Forest conservation

Abstract

Orientador: Ricardo Ribeiro Rodrigues Tese (doutorado) - Universidade Estadual de Campinas, Instituto de Biologia Resumo: Para potencializar a regeneração natural de florestas intensamente antropizadas, o enriquecimento artificial propõe a introdução de espécies de plantas de diferentes formas de crescimento, ausentes na área no momento presente. O conhecimento atual sobre o estabelecimento inicial de espécies para enriquecimento ainda carece de estudos, pois a tolerância de cada planta ao ambiente florestal é extremamente variável, devido sua autoecologia e interação interespecífica. Além disso, o elevado custo do plantio de mudas rustificadas tende a inviabilizar os projetos de enriquecimento. No entanto, poucos estudos avaliam o custo e a efetividade do enriquecimento com uso de distintos tamanhos de propágulos da mesma espécie. Para avançar nos conhecimentos sobre enriquecimento artificial, neste estudo procuramos responder às seguintes perguntas: I. Diferentes espécies de diversidade apresentam desempenho adequado (sobrevivência e crescimento iniciais) em distintos ambientes florestais? II. Qual método de enriquecimento (semeadura direta, plantio de mudas pequenas e grandes), apresenta equilíbrio entre custo e efetividade? Assim, no Capítulo 1 desta tese avaliamos a sobrevivência e crescimento iniciais de cinco espécies: Byrsonima sericea DC. (murici), Euterpe edulis Mart. (palmito-juçara), Lecythis pisonis Cambess. (sapucaia), Psidium cattleianum Sabine (araçá), Parkia pendula (Willd.) Benth. ex. Walp. (visgueiro), utilizando-se mudas rustificadas, em duas florestas: florestas naturais degradadas e floresta em processo de restauração, com a hipótese que a estrutura dos ambientes florestais influencia o estabelecimento inicial das espécies de diversidade, sendo favorecido em florestas naturais degradadas. Nossos resultados demonstraram que as variações do ambiente florestal influenciaram no desempenho das populações, em especial B. sericea, E. edulis e P. pendula, em floresta natural. Ao contrário do esperado, a floresta em restauração proporciona 17 vezes mais chance de sobrevivência que as florestas naturais. Para as espécies com elevada mortalidade deste estudo, sugerimos ampliar o número de indivíduos no plantio e avaliar a necessidade de replantio ainda no período chuvoso. No Capítulo 2 avaliamos o equilíbrio entre custo e efetividade do enriquecimento, na hipótese que a utilização de propágulos menores resulta em baixa sobrevivência final, assim tornando o custo final mais elevado do que mudas grandes. Selecionamos seis espécies de diversidade: Allagoptera caudescens (Mart.) Kuntze (buri), B. sericea, E. edulis, L. pisonis, P. cattleianum e P. pendula. Testamos três tamanhos de propágulos: sementes viáveis, mudas pequenas e grandes. Os resultados mostram que uma muda grande tem três vezes mais chance de sobreviver nas florestas em restauração, comparadas aos demais tamanhos. O custo total da semeadura foi 42% menor que mudas pequenas e 62% que mudas grandes. Para mudas pequenas o custo total foi 34% menor do que mudas grandes. As horas de trabalho representam 58% do valor final. Nesse estudo, o enriquecimento com semeadura direta foi ineficiente para a maioria das espécies, comparando-se com a sobrevivência final dos demais métodos. Para mudas pequenas, o equilíbrio entre custo e efetividade foi em espécies com maior acúmulo de reservas na semente. Sugerimos a associação de dois ou mais métodos como estratégia mais eficaz de enriquecimento artificial, e a presença de três ou mais pares de folhas para a retirada das mudas pequenas do viveiro Abstract: To enhance the natural regeneration of intensely anthropic forests, artificial enrichment proposes the introduction of plant species of different growth forms, absent in the area at present. Current knowledge about the initial establishment of species for enrichment still lacks studies, since the tolerance of each plant to the forest environment is extremely variable due to its self-ecology and interspecific interaction. In addition, the high cost of planting rustified seedlings tends to make the enrichment projects unviable. However, few studies evaluate the cost and effectiveness of enrichment with the use of different sizes of propagules of the same species. In order to advance the knowledge about artificial enrichment, in this study we try to answer the following questions: I. Different species of diversity present adequate performance (initial survival and growth) in different forest environments? II. Which method of enrichment (direct seeding, small and large seedlings) has a balance between cost and effectiveness? Thus, in Chapter 1 of this thesis, we evaluated the initial survival and growth of five species: Byrsonima sericea DC. (murici), Euterpe edulis Mart. (palmito-juçara), Lecythis pisonis Cambess. (sapucaia), Psidium cattleianum Sabine (araca), Parkia pendula (Willd.) Benth. ex. Walp. (visgueiro), using rustified seedlings in two forests: degraded natural forests and forest undergoing restoration, with the hypothesis that the structure of forest environments influences the initial establishment of diverse species, being favored in degraded natural forests. Our results demonstrated that the variations of the forest environment influenced the performance of the populations, especially B. sericea, E. edulis, and P. pendula, in natural forest. Contrary to expectations, the forest under restoration provides 17 times more chance of survival than the natural forests. For the species with high mortality of this study, we suggest to increase the number of individuals in the planting and to evaluate the need for replanting in the rainy season. In Chapter 2 we evaluated the balance between cost and effectiveness of enrichment, assuming that the use of smaller propagules results in low final survival, thus making the final cost higher than large seedlings. We selected six species of diversity: Allagoptera caudescens (Mart.) Kuntze (buri), B. sericea, E. edulis, L. pisonis, P. cattleianum, and P. pendula. We tested three sizes of seedlings: viable seeds, small and large seedlings. The results show that a large molt is three times more likely to survive in forests under forest undergoing restoration, compared to other sizes. The total cost of sowing was 42% lower than the small seedlings and 62% than large seedlings. For small seedlings, the total cost was 34% smaller than large seedlings. Working hours represent 58% of the final value. In this study, direct sowing enrichment was inefficient for most species, comparing with the final survival of the other methods. For small seedlings, the balance between cost and effectiveness was in species with greater accumulation of reserves in the seed. We suggest the association of two or more methods as a more effective artificial enrichment strategy and the presence of three or more pairs of leaves for the removal of small seedlings from the nursery Doutorado Biologia Vegetal Doutora em Biologia Vegetal CAPES CNPQ 140361/2017-0 FAPESP 2013/50718-5

Published

2019