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3. Exotic eucalypts: From demonized trees to allies of tropical forest restoration?

Author

Brancalion, Pedro HS, Amazonas, Nino T, Chazdon, Robin L, Melis, Juliano, Rodrigues, Ricardo R, Silva, Carina C, Sorrini, Taísi B, and Holl, Karen D

Subjects
Climate Change Impacts and Adaptation, Ecological Applications, Biological Sciences, Ecology, Environmental Sciences, Regenerative Medicine, Atlantic forest, ecological restoration, Eucalyptus, forest and landscape restoration, large-scale restoration, natural regeneration, restoration costs, restoration economy, Environmental Science and Management, Zoology, Environmental management
Abstract

International forest landscape restoration commitments have promoted the restoration of millions of hectares of degraded and deforested lands globally, but few forest restoration approaches provide both ecologically‐sound and financially‐viable solutions for achieving the spatial scale proposed. One potential revenue source for restoration is selective harvesting of timber, a product for which there is a clear global market and increasing demand. The use of commercially valuable exotic trees may attract farmers to restoration, but can be a major concern for ecologists. Here, we present results collected over 7 years from experimental studies at three sites across the Brazilian Atlantic Forest to assess the impacts of incorporating exotic eucalypts as a transitional stage in tropical forest restoration on above‐ground biomass accumulation, native woody species regeneration and financial viability. Biomass accumulation was nine times greater in mixed eucalypt‐native species plantations than native only plantings due to fast eucalypt growth. Nonetheless, the growth of native non‐pioneer trees was not affected or only slightly reduced by eucalypts prior to logging. Eucalypts did not negatively affect the natural regeneration of native woody species before or after eucalypt logging. Canopy cover regrew quickly but was slightly lower a year following logging in mixed eucalypt‐native species plantations. Natural regeneration richness and planted non‐pioneer growth were similar across treatments in the post‐logging period. We found higher variation of biomass accumulation and native species regeneration among sites than between plantation types within sites. The income from eucalypt wood production offset 44%–75% of restoration implementation costs. Synthesis and applications. Many of the negative effects attributed to eucalypts on the growth and natural regeneration of native trees depend on features of the production system, landscape structure, soil, and climate in which they are grown, rather than the effects of eucalypts per se. In Brazil's Atlantic Forest region, exotic eucalypts can become important allies of tropical forest restoration, and their use and investment opportunities should be considered within the portfolio of options supported by public and private funding and policies.

Published
2020

4. Forest Restoration

Author

Resende, Angélica F., primary, Krainovic, Pedro M., additional, Brancalion, Pedro H.S., additional, Weidlich, Emanuela W.A., additional, Rodrigues, Ricardo R., additional, Strassburg, Bernardo, additional, and Loyola, Rafael, additional

Published
2023
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7. Costs and benefits of restoration are still poorly quantified: evidence from a systematic literature review on the Brazilian Atlantic Forest

Author

Schimetka, Lorenz R., primary, Ruggiero, Patricia G. C., additional, Carvalho, Raquel L., additional, Behagel, Jelle, additional, Metzger, Jean Paul, additional, Nascimento, Nathália, additional, Chaves, Rafael B., additional, Brancalion, Pedro H. S., additional, Rodrigues, Ricardo R., additional, and Krainovic, Pedro M., additional

Published
2024
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9. Protocol for Monitoring Tropical Forest Restoration

Author

Viani, Ricardo AG, Holl, Karen D, Padovezi, Aurelio, Strassburg, Bernardo BN, Farah, Fabiano T, Garcia, Letícia C, Chaves, Rafael B, Rodrigues, Ricardo R, and Brancalion, Pedro HS

Subjects
Life on Land, ecological indicators, ecological restoration, large-scale restoration, restoration success, socioeconomic evaluation, Environmental Science and Management
Abstract

Monitoring protocols are needed to evaluate the millions of hectares of land that are being proposed for forest restoration in the coming decades. Standardized proposals are critical to evaluate efficacy of restoration strategies, identify triggers for corrective actions, compare results across projects, and generally learn from past projects to inform future restoration efforts. We describe an iterative process, including over 200 stakeholders, to develop a protocol for monitoring Brazilian Atlantic Forest restoration. We give an overview of the ecological, socioeconomic, and management criteria, indicators, and metrics included in the protocol. Strengths of the protocol include the following: (a) testing and use across sites with a range of ages, forest types, past land uses, restoration techniques, and implementing institutions; (b) participation by a broad range of government, nongovernment, private, and academic institutions in the protocol development process; and (c) inclusion of socioeconomic and management criteria. Next steps for facilitating the broad adoption of the protocol in the Atlantic Forest region include providing in person and online training courses, establishing an online repository for storing and comparing monitoring data, and developing smartphone applications to facilitate data collection. Although the protocol was developed for the Atlantic Forest context and further refinements are needed, we think that the Atlantic Forest Pact monitoring protocol may serve as a model to inform the development of similar protocols in other regions, which ultimately could be integrated to produce a pantropical protocol for common use by several restoration forest programs worldwide.

Published
2017

10. Costs and benefits of restoration are still poorly quantified : evidence from a systematic literature review on the Brazilian Atlantic Forest

Author

Schimetka, Lorenz R., Ruggiero, Patricia G.C., Carvalho, Raquel L., Behagel, Jelle, Metzger, Jean Paul, Nascimento, Nathália, Chaves, Rafael B., Brancalion, Pedro H.S., Rodrigues, Ricardo R., Krainovic, Pedro M., Schimetka, Lorenz R., Ruggiero, Patricia G.C., Carvalho, Raquel L., Behagel, Jelle, Metzger, Jean Paul, Nascimento, Nathália, Chaves, Rafael B., Brancalion, Pedro H.S., Rodrigues, Ricardo R., and Krainovic, Pedro M.

Abstract

The achievement of international forest restoration goals requires economically viable land-use options. The Brazilian Atlantic Forest is a priority area for ecosystem restoration, as it is widely deforested to make place for intensive agriculture and one of the most threatened biodiversity hotspots in the world. We systematically reviewed existing scientific literature on the biome to highlight the evidence on economic benefits and costs of forest restoration. A total of 15 publications were identified that quantify costs and/or economic benefits of forest restoration. We observed that most studies (12) were published after 2018 and that research on the topic was biogeographically biased as 12 publications referred to study sites in Brazil's Southeast Region. Given its beneficial natural conditions, the Atlantic Forest is predestined for a wide range of restoration-related opportunities, yet economic benefits of restoration are underexplored (seven studies). Moreover, benefits from a multifunctional use of restored forests are almost absent in the literature with only three studies presenting primary data. Elaboration of restoration costs is also limited to 10 studies that focus predominantly on active restoration. Thus, we argue that the economic costs and benefits of forest restoration are not well understood. Clarity thereon is, however, critical for policy formulation and to mobilize private investments. We therefore call for studies to fill in the knowledge gap on restoration economics in the Atlantic Forest biome, and to study restoration economics in other biomes as well.

Published
2024

13. Convergence and divergence in science and practice of urban and rural forest restoration

Author

Romanelli, João P., primary, Piana, Max R., additional, Klaus, Valentin H., additional, Brancalion, Pedro H. S., additional, Murcia, Carolina, additional, Cardou, Françoise, additional, Wallace, Kiri Joy, additional, Adams, Cristina, additional, Martin, Philip A., additional, Burton, Philip J., additional, Diefenderfer, Heida L., additional, Gornish, Elise S., additional, Stanturf, John, additional, Beyene, Menilek, additional, Santos, João Paulo Bispo, additional, Rodrigues, Ricardo R., additional, and Cadotte, Marc W., additional

Published
2023
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14. Convergence and divergence in science and practice of urban and rural forest restoration.

Author

Romanelli, João P., Piana, Max R., Klaus, Valentin H., Brancalion, Pedro H. S., Murcia, Carolina, Cardou, Françoise, Wallace, Kiri Joy, Adams, Cristina, Martin, Philip A., Burton, Philip J., Diefenderfer, Heida L., Gornish, Elise S., Stanturf, John, Beyene, Menilek, Santos, João Paulo Bispo, Rodrigues, Ricardo R., and Cadotte, Marc W.

Subjects
FOREST restoration, RESTORATION ecology, ENVIRONMENTAL protection, STREAM restoration, CITIES & towns, INCENTIVE (Psychology), URBANIZATION, RURAL poor
Abstract

Forest restoration has never been higher on policymakers' agendas. Complex and multi‐dimensional arrangements across the urban–rural continuum challenge restorationists and require integrative approaches to strengthen environmental protection and increase restoration outcomes. It remains unclear if urban and rural forest restoration are moving towards or away from each other in practice and research, and whether comparing research outcomes can help stakeholders to gain a clearer understanding of the interconnectedness between the two fields. This study aims to identify the challenges and opportunities for enhancing forest restoration in both urban and rural systems by reviewing the scientific evidence, engaging with key stakeholders and using an urban–rural forest restoration framework. Using the Society for Ecological Restoration's International Principles as discussion topics, we highlight aspects of convergence and divergence between the two fields to broaden our understanding of forest restoration and promote integrative management approaches to address future forest conditions. Our findings reveal that urban and rural forest restoration have convergent and divergent aspects. We emphasise the importance of tailoring goals and objectives to specific contexts and the need to design different institutions and incentives based on the social and ecological needs and goals of stakeholders in different regions. Additionally, we discuss the challenges of achieving high levels of ecological restoration and the need to go beyond traditional ecology to plan, implement, monitor, and adaptively manage restored forests. We suggest that rivers and watersheds could serve as a common ground linking rural and urban landscapes and that forest restoration could interact with other environmental protection measures. We note the potential for expanding the creative vision associated with increasing tree‐containing environments in cities to generate more diverse and resilient forest restoration outcomes in rural settings. This study underscores the value of integrative management approaches in addressing future forest conditions across the urban–rural continuum. Our framework provides valuable insights for policymakers, researchers, and decision‐makers to advance the field of forest restoration and address the challenges of restoration across the urban–rural continuum. The rural–urban interface serves as a convergence point for forest restoration, and both urban and rural fields can benefit from each other's expertise. [ABSTRACT FROM AUTHOR]

Published
2024
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16. Disinformation permeates Castro's reply to Rajão et al. (2022)

Author

Rajão, Raoni, primary, Nobre, Antonio Donato, additional, Cunha, Evandro L.T.P., additional, Duarte, Tiago Ribeiro, additional, Marcolino, Camilla, additional, Soares-Filho, Britaldo S., additional, Sparovek, Gerd, additional, Rodrigues, Ricardo R., additional, Valera, Carlos, additional, Bustamante, Mercedes, additional, Nobre, Carlos, additional, and de Lima, Letícia Santos, additional

Published
2023
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20. Environmental gradients and the evolution of successional habitat specialization: a test case with 14 Neotropical forest sites

Author

Letcher, Susan G., Lasky, Jesse R., Chazdon, Robin L., Norden, Natalia, Wright, S. Joseph, Meave, Jorge A., Pérez-García, Eduardo A., Muñoz, Rodrigo, RomeroPérez, Eunice, Andrade, Ana, Andrade, José Luis, Balvanera, Patricia, Becknell, Justin M., Bentos, Tony V., Bhaskar, Radika, Bongers, Frans, Boukili, Vanessa, Brancalion, Pedro H. S., César, Ricardo G., Clark, Deborah A., Clark, David B., Craven, Dylan, DeFrancesco, Alexander, Dupuy, Juan M., Finegan, Bryan, GonzálezJiménez, Eugenio, Hall, Jefferson S., Harms, Kyle E., Hernández-Stefanoni, José Luis, Hietz, Peter, Kennard, Deborah, Killeen, Timothy J., Laurance, Susan G., LebrijaTrejos, Edwin E., Lohbeck, Madelon, Martínez-Ramos, Miguel, Massoca, Paulo E. S., Mesquita, Rita C. G., Mora, Francisco, Muscarella, Robert, Paz, Horacio, PinedaGarcía, Fernando, Powers, Jennifer S., Quesada-Monge, Ruperto, Rodrigues, Ricardo R., Sandor, Manette E., Sanaphre-Villanueva, Lucía, Schüller, Elisabeth, Swenson, Nathan G., Tauro, Alejandra, Uriarte, María, van Breugel, Michiel, VargasRamírez, Orlando, Viani, Ricardo A. G., Wendt, Amanda L., and Williamson, G. Bruce

Published
2015

28. Xenotarsonemus brachytegula Lofego, Moraes & Ochoa

Author

Demite, Peterson R., Cavalcante, Ana C. C., Lofego, Antonio C., Rodrigues, Ricardo R., and De Moraes, Gilberto J.

Subjects
Arthropoda, Xenotarsonemus, Arachnida, Xenotarsonemus brachytegula, Prostigmata, Animalia, Biodiversity, Tarsonemidae, Taxonomy
Abstract

Xenotarsonemus brachytegula Lofego, Moraes & Ochoa Xenotarsonemus brachytegula Lofego, Moraes & Ochoa, 2007: 2. Specimens examined: Prados (MG): Campomanesia pubescens, VI-2012 (16 ♀, 5 ♂), XII-2012 (1 ♀, 1 ♂), M. tomentosa, XII-2012 (2 ♀). Previous reports: São Paulo —Natural ecosystems (Cerrado): C. pubescens, Luehea speciosa Willd. (Malvaceae), Olyra sp. (Poaceae) (Lofego et al. 2007); Natural ecosystems (Atlantic Forest): A. klotzschii and T. casaretti (Demite et al. 2013, 2015; cited as A. communis).

Published
2022
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29. Xenotarsonemus spiniphorus Lofego, Moraes & Ochoa

Author

Demite, Peterson R., Cavalcante, Ana C. C., Lofego, Antonio C., Rodrigues, Ricardo R., and De Moraes, Gilberto J.

Subjects
Arthropoda, Xenotarsonemus, Arachnida, Xenotarsonemus spiniphorus, Prostigmata, Animalia, Biodiversity, Tarsonemidae, Taxonomy
Abstract

Xenotarsonemus spiniphorus Lofego, Moraes & Ochoa Xenotarsonemus spiniphorus Lofego, Moraes & Ochoa, 2007: 11. Specimens examined: Cananéia (SP): Gomidesia sp., VII-2012 (19 ♀, 1 ♂); Blefarocalix salicifolium, I-2013 (2 ♀). Previous reports: São Paulo —Natural ecosystems (Cerrado): Campomanesia pubescens and Myrcia venulosa (Lofego et al. 2007); Natural ecosystems (Atlantic Forest): Trichillia casaretti (Demite et al. 2013) and on plant not mentioned (Demite et al. 2012). Among the 14 species nominally determined in this study, seven of these (F. pulvirosus, M, megassolenidii, T. bilobatus, T. confusus, X. brachytegula, X. cerrado and X. spniphorus) were also found in the Cerrado biome (Lofego & Moraes, 2006; Demite et al. 2009; Rezende et al. 2014). This similarity between the tarsonemids fauna in these two biomes is an unexpected fact, since they are structurally quite different biomes; the Atlantic Forest is a tropical forest, and the Cerrado is a savanna (IBGE 2012). The remaining vegetation of the Atlantic Forest shelters a great diversity of tarsonemids, many still new to science. In the present study, the sampling was only a small portion of the entire diversity of the Atlantic Forest (eight sampling areas, with only five plant species from the same family were sampled at each area) and a considerable richness of tarsonemids species was found. In this study, of the identified species, six (40%) were unknown until recently to science (D. esalqi, K. ochoai, M. caissara, O. dux, X. quiriri, X. scorpius) (Lofego et al. 2015, 2016, 2018, 2019, Rezende et al. 2015b), in addition to the one described here (Tarsonemus conduru Lofego & Cavalcante sp. nov.). A great richness of tarsonemid was also recorded in the Atlantic Forest biome by Demite et al. (2012), in a more restricted area in the interior of the São Paulo state, but with a larger sampling, where 100 plant species from several botanical families were collected in 18 areas. In that study, Tarsonemidae was the second family with the highest richness (47 species). The data from the present study reveal the impressive richness of the family Tarsonemidae in the Atlantic Forest; and indicate how much further efforts are needed to better understand the diversity in this hotspot.

Published
2022
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30. Xenotarsonemus scorpius Lofego, Cavalcante & Demite

Author

Demite, Peterson R., Cavalcante, Ana C. C., Lofego, Antonio C., Rodrigues, Ricardo R., and De Moraes, Gilberto J.

Subjects
Arthropoda, Xenotarsonemus, Arachnida, Prostigmata, Animalia, Biodiversity, Xenotarsonemus scorpius, Tarsonemidae, Taxonomy
Abstract

Xenotarsonemus scorpius Lofego, Cavalcante & Demite Xenotarsonemus scorpius Lofego, Cavalcante & Demite, 2018: 274. Specimens examined: Uruçuca (BA): Marlierea obversa D. Legrand, V-2012 (1 ♀), Myrciaria floribunda Miq., V-2012 (4 ♀, 8 ♂), III-2013 (4 ♀, 2 ♂). Previous reports: This material is the same used in the species description by Lofego et al. (2018).

Published
2022
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31. Xenotarsonemus quiriri Lofego, Cavalcante & Demite

Author

Demite, Peterson R., Cavalcante, Ana C. C., Lofego, Antonio C., Rodrigues, Ricardo R., and De Moraes, Gilberto J.

Subjects
Arthropoda, Xenotarsonemus, Arachnida, Prostigmata, Animalia, Xenotarsonemus quiriri, Biodiversity, Tarsonemidae, Taxonomy
Abstract

Xenotarsonemus quiriri Lofego, Cavalcante & Demite Xenotarsonemus quiriri Lofego, Cavalcante & Demite, 2018: 271. Specimens examined: Garuva (SC): Myrtaceae sp.1, V-2012 (5 ♀). Previous reports: This material is the same used in the species description by Lofego et al. (2018)., Published as part of Demite, Peterson R., Cavalcante, Ana C. C., Lofego, Antonio C., Rodrigues, Ricardo R. & De Moraes, Gilberto J., 2022, Tarsonemid mites (Acari: Tarsonemidae) on myrtaceous plants of the Atlantic Forest, Brazil, with description of a new species of Tarsonemus Canestrini & Fanzago, pp. 153-168 in Zootaxa 5094 (1) on page 165, DOI: 10.11646/zootaxa.5094.1.6, http://zenodo.org/record/5965003, {"references":["Lofego, A. C., Cavalcante, A. C. C. & Demite, P. R. (2018) Two new species of Xenotarsonemus (Acari: Tarsonemidae) from the Atlantic Forest, Brazil. Neotropical Entomology, 47 (2), 271 - 280. https: // doi. org / 10.1007 / s 13744 - 017 - 0556 - 5"]}

Published
2022
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32. Metatarsonemus caissara Lofego & Cavalcante

Author

Demite, Peterson R., Cavalcante, Ana C. C., Lofego, Antonio C., Rodrigues, Ricardo R., and De Moraes, Gilberto J.

Subjects
Arthropoda, Arachnida, Prostigmata, Animalia, Biodiversity, Tarsonemidae, Metatarsonemus caissara, Metatarsonemus, Taxonomy
Abstract

Metatarsonemus caissara Lofego & Cavalcante Metatarsonemus caissara Lofego & Cavalcante in Lofego et al., 2019: 314. Specimens examined: Cananéia (SP): Eugenia astringens Cambess, I-2013 (2 ♀, 2 ♂). Previous reports: This material is the same used in the species description by Lofego et al. (2019)., Published as part of Demite, Peterson R., Cavalcante, Ana C. C., Lofego, Antonio C., Rodrigues, Ricardo R. & De Moraes, Gilberto J., 2022, Tarsonemid mites (Acari: Tarsonemidae) on myrtaceous plants of the Atlantic Forest, Brazil, with description of a new species of Tarsonemus Canestrini & Fanzago, pp. 153-168 in Zootaxa 5094 (1) on page 158, DOI: 10.11646/zootaxa.5094.1.6, http://zenodo.org/record/5965003, {"references":["Lofego, A. C., Cavalcante, A. C. C., Demite, P. R., Rezende, J. M., Ochoa, R. & Moraes, G. J. de (2019) Reinstatement of Metatarsonemus Attiah (Acari: Tarsonemidae), with description of a new species, redefinition of the genus and a key to the world species. Zootaxa, 4711 (2), 307 - 329. https: // doi. org / 10.11646 / zootaxa. 4711.2.5"]}

Published
2022
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33. Olyra dux Lofego, Pitton & Rezende

Author

Demite, Peterson R., Cavalcante, Ana C. C., Lofego, Antonio C., Rodrigues, Ricardo R., and De Moraes, Gilberto J.

Subjects
Tracheophyta, Poales, Liliopsida, Olyra, Biodiversity, Olyra dux, Plantae, Poaceae, Taxonomy
Abstract

Ochoanemus dux Lofego, Pitton & Rezende Ochoanemus dux Lofego, Pitton & Rezende, 2016: 313. Specimens examined: Cananéia (SP): Psidium cattleyanum Sabine, VII-2012 (11 ♀, 7 ♂). Previous reports: This material is the same used in the species description by Lofego et al. (2016)., Published as part of Demite, Peterson R., Cavalcante, Ana C. C., Lofego, Antonio C., Rodrigues, Ricardo R. & De Moraes, Gilberto J., 2022, Tarsonemid mites (Acari: Tarsonemidae) on myrtaceous plants of the Atlantic Forest, Brazil, with description of a new species of Tarsonemus Canestrini & Fanzago, pp. 153-168 in Zootaxa 5094 (1) on page 159, DOI: 10.11646/zootaxa.5094.1.6, http://zenodo.org/record/5965003, {"references":["Pitton, T., Lofego, A. C. & Rezende, J. M. (2016) Three new species of Xenotarsonemus (Acari: Tarsonemidae) from the northwestern region of Sao Paulo State, Brazil. Zootaxa, 4138 (3), 534 - 548. https: // doi. org / 10.11646 / zootaxa. 4138.3.8","Lofego, A. C., Pitton, T. & Rezende, J. M. (2016) A new genus and new species of Tarsonemidae (Acari: Heterostigmata) from the Brazilian rainforests. Systematic & Applied Acarology, 21 (3), 307 - 319. https: // doi. org / 10.11158 / saa. 21.3.6"]}

Published
2022
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34. Tarsonemus conduru Lofego & Cavalcante 2022, sp. nov

Author

Demite, Peterson R., Cavalcante, Ana C. C., Lofego, Antonio C., Rodrigues, Ricardo R., and De Moraes, Gilberto J.

Subjects
Tarsonemus, Arthropoda, Arachnida, Prostigmata, Animalia, Biodiversity, Tarsonemidae, Taxonomy, Tarsonemus conduru
Abstract

Tarsonemus conduru Lofego & Cavalcante sp. nov. (Figures 2–8) Diagnosis: Female—Gnatosomal capsule wider than long; pharynx fusiform. Median lobes on the posterior margin of the prodorsal shield, setae v1, sc2 and c2 with similar length, varying between 10–16 μm; short setae on shields C, D, EF and H (less than 12 μm). Prosternal apodeme conspicuous, almost reaching sejugal apodeme but nor fused with it. Sejugal apodeme arched, conspicuous in most of its extension but diffuse in the middle. Poststernal apodeme conspicuous bifurcated anteriorly. Specimens examined: Holotype ♀: Serra do Conduru, Uruçuca, Bahia state, Brazil (14°29’S; 39°08’W), on Marlierea obversa D. Legrand (Myrtaceae), 5 May 2012, deposited at Departamento de Zoologia e Botânica, Universidade Estadual Paulista (UNESP), São José do Rio Preto, São Paulo state, Brazil. Paratypes: 1 ♀: same locality and date as holotype, on Myrciaria sp. (Myrtaceae), deposited at Departamento de Zoologia e Botânica, Universidade Estadual Paulista (UNESP), São José do Rio Preto, São Paulo state, Brazil; 1 ♀: same locality as holotype, on Myrciaria floribunda (H.West ex Willd.)O.Berg(Myrtaceae), 16 March2013, deposited at Departamento de Entomologia e Acarologia, Escola Superior de Agricultura “Luiz de Queiroz” (ESALQ), Universidade de São Paulo (USP), Piracicaba, São Paulo state, Brazil. All specimens collected by P.R. Demite. Description of female: three specimens measured Gnathosoma (Figure 3): subquadrangular in dorsal view, length 22 23 (22–25); maximum width 28 29 (28–30), dorsal apodeme distinct. Setae dgs 10 10 and vgs 5 5 (5–6) smooth; seta pp not observed. Palpus short, with one visible small subterminal setae and a terminal cone-shaped structure. Pharynx fusiform, 13 12 (12–13) long and 6 5 (5–6) wide at widest region. Idiosoma (Figures 3 and 4): length 145 148 (145–150), width at level of c1 98 101 (98–106); prodorsal shield covering at least three quarters of the gnathosoma. Stigma on lateral of prodorsal shield, prominent, posterolaterad of v1. Posteromedian margin of prodorsal shield with five subcircular lobes. Lengths of the setae: v1 15 14 (12–16), sc1 12 12 (11–12), sc2 12 12 (10–13), c1 5 5, c2 12 12 (11–14), d 7 7 (7–8), e 7 9 (9–10), f 10 11 (10–12), h 9 10 (9–11). Setae v1, sc2, c1, c2, d, e; f and h serrate; all these setiform; sc1 capitate and with tiny spines. Distances between dorsal setae: v1–v1 27 26 (23–28), sc1–sc1 37 38 (37–40); sc2–sc2 49 49 (47–51), v1–sc2 20 20 (20–21), c1–c1 44 44 (42–45), c2–c2 76 78 (76–81), c1–c2 29 30 (29–31), d–d 32 30 (26–33), f–f 18 16 (13–18), e–f 16 18 (16–20), h–h 18 20 (18–23). Seta sc1 inserted at same level or slightly posteriad of sc2. Coxisternal seta 1a 3 4 (3–4), near the middle of apodeme 1 (ap1); 2a 7 6 (5–7), adjacent to the middle of apodeme 2 (ap2); 3a 5 5 (4–5), adjacent to the anterior end of apodeme 3 (ap3); 3b 4 5 (4–5), by distal end of apodeme IV. Seta ps 2 2. Prosternal apodeme (appr) conspicuous, almost reaching sejugal apodeme but nor fused with it. Apodeme 1 conspicuous, fused to anterior end of prosternal apodeme, extending diagonally to base of anterior margin of trochanter I. Apodeme 2 almost reaching prosternal apodeme. Sejugal apodeme (apsej) arched, conspicuous in most of its extension but diffuse in the middle. Apodeme 3 extending diagonally from proximity of insertion of seta 3a to anterior margin of trochanter III; apodeme 4 (ap4) extending diagonally from the middle of anterior half of the poststernal apodeme (appo) to insertion of seta 3b. Proximal half of apodeme 4 diffused while the distal half conspicuous. Poststernal apodeme conspicuous, bifurcated anteriorly. Ventral plates slightly punctate. Tegula rounded, 4 4 (3–5) long and 9 9 (8–9) wide. All ventral setae smooth. Legs (Figures 5–8): lengths (femur to tarsus): leg I 37 38 (37–38), leg II 42 40 (37–42), leg III 40 41 (39–44), leg IV 25 26 (25–27). Number of setae (solenidia in parentheses) on femur, genu, tibia and tarsus, respectively: leg I: 4-4-6(2)+8(1), leg II: 3-3-4-6(1), leg III: 1+3-4-4. Tarsal solenidion ω of tibiotarsus I 5 6 (5–7), stout, slightly narrower near base. Sensory cluster of tibia I complete, solenidion φ1 2 2, capitate; φ2 2 2, clavate; famulus k 3 3 (3–4), all those inserted at approximately the same level. Seta d of tibia I 30 35 (30–40), slightly serrate. Solenidion ω of tarsus II proximal, 4 4 (4–5), stout, narrower basally; seta pl´´ 3 3 (3–4), spine-like. Seta d of tibia II 7 7 (7–8), smooth. Femorogenu IV 18 20 (18–21); tibiotarsus IV 6 6. Length of leg IV setae: v´F 5 6 (5–6), v´G 7 7, v´Ti 17 20 (17–22) and tc´´ 19 21 (19–23); setae v´F, v´G and tc´´ smooth; v´Ti serrate. Differential diagnosis: The new species resembles Tarsonemus stammeri Schaarschmidt in having median lobes on the posterior margin of the prodorsal shield and short setae on shields C, D, EF and H (less than 20 µm). However, that species differs from the new species here described by the elongate pharynx, sejugal apodeme well sclerotized throughout, prosternal apodema sclerotized only anteriad of apodeme 2, and dorsal seta d about 20 μm long. Remarks: Nothing is known about the biology or ecology of this new species. Larva and Male: Unknown Etymology: The specific designation refers to the type locality “Serra do Conduru” (Conduru ridge)., Published as part of Demite, Peterson R., Cavalcante, Ana C. C., Lofego, Antonio C., Rodrigues, Ricardo R. & De Moraes, Gilberto J., 2022, Tarsonemid mites (Acari: Tarsonemidae) on myrtaceous plants of the Atlantic Forest, Brazil, with description of a new species of Tarsonemus Canestrini & Fanzago, pp. 153-168 in Zootaxa 5094 (1) on pages 159-164, DOI: 10.11646/zootaxa.5094.1.6, http://zenodo.org/record/5965003

Published
2022
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35. Fungitarsonemus lodici

Author

Demite, Peterson R., Cavalcante, Ana C. C., Lofego, Antonio C., Rodrigues, Ricardo R., and De Moraes, Gilberto J.

Subjects
Fungitarsonemus lodici, Arthropoda, Fungitarsonemus, Arachnida, Prostigmata, Animalia, Biodiversity, Tarsonemidae, Taxonomy
Abstract

Fungitarsonemus lodici (De Leon) Hemitarsonemus lodici De Leon, 1956: 110. Fungitarsonemus lodici.— Lindquist, 1986: 307. Specimens examined: Uruçuca (BA): Myrcia obvesa (D. Legrand) E. Lucas & C.E. Wilson, V-2012 (1 ♀); Garuva (SC): Myrtaceae sp.5, IV-2013 (1 ♀); Lajeado/Teutônia (RS): Eugenia rostrifolia D. Legrand, IV-2012 (4 ♀♀), XII-2012 (1 ♀); M. plinioides XII-2012 (1 ♀). Previous reports: Alagoas —Natural ecosystems (Atlantic Forest): Cupania oblongifolia Mart. (Sapindaceae) (Duarte et al. 2015)., Published as part of Demite, Peterson R., Cavalcante, Ana C. C., Lofego, Antonio C., Rodrigues, Ricardo R. & De Moraes, Gilberto J., 2022, Tarsonemid mites (Acari: Tarsonemidae) on myrtaceous plants of the Atlantic Forest, Brazil, with description of a new species of Tarsonemus Canestrini & Fanzago, pp. 153-168 in Zootaxa 5094 (1) on page 158, DOI: 10.11646/zootaxa.5094.1.6, http://zenodo.org/record/5965003, {"references":["De Leon, D. (1956) Four new Acarina in the family Tarsonemidae. Florida Entomologist, 39 (3), 105 - 112. https: // doi. org / 10.2307 / 3492424","Lindquist, E. E. (1986) The world genera of Tarsonemidae (Acari: Heterostigmata): a morphological, phylogenetic, and systematic revision, with a reclassification of family-group taxa in the Heterostigamata. Memoirs of the Entomological Society of Canada, 136, 1 - 517.","Duarte, M. E., Navia, D., Santos, L. R., Rideiqui, P. J. S. & Silva, E. S. (2015) Mites associated with sugarcane crop and with native trees from adjacent Atlantic forest fragment in Brazil. Experimental and Applied Acarology, 66, 529 - 540. https: // doi. org / 10.1007 / s 10493 - 015 - 9922 - 3"]}

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2022
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36. Kaliszewskia ochoai Lofego, Demite & Moraes

Author

Demite, Peterson R., Cavalcante, Ana C. C., Lofego, Antonio C., Rodrigues, Ricardo R., and De Moraes, Gilberto J.

Subjects
Kaliszewskia ochoai, Arthropoda, Arachnida, Prostigmata, Animalia, Biodiversity, Kaliszewskia, Tarsonemidae, Taxonomy
Abstract

Kaliszewskia ochoai Lofego, Demite & Moraes Kaliszewskia ochoai Lofego, Demite & Moraes, 2015: 563. Specimens examined: Uruçuca (BA): Plinia sp., III-2013 (1 ♀); Cananéia (SP): Blepharocalyx salicifolius (Kunth) O. Berg, VII-2012 (2 ♀). Previous reports: This material is the same used in the species description by Lofego et al. (2015)., Published as part of Demite, Peterson R., Cavalcante, Ana C. C., Lofego, Antonio C., Rodrigues, Ricardo R. & De Moraes, Gilberto J., 2022, Tarsonemid mites (Acari: Tarsonemidae) on myrtaceous plants of the Atlantic Forest, Brazil, with description of a new species of Tarsonemus Canestrini & Fanzago, pp. 153-168 in Zootaxa 5094 (1) on page 158, DOI: 10.11646/zootaxa.5094.1.6, http://zenodo.org/record/5965003, {"references":["Lofego, A. C., Demite, P. R. & Moraes, G. J. de (2015) A new genus and species of Tarsonemidae (Acari: Heterostigmata) from the Atlantic Forest, Brazil. Zootaxa, 986, 561 - 568."]}

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2022
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37. Tarsonemus confusus Ewing 1939

Author

Demite, Peterson R., Cavalcante, Ana C. C., Lofego, Antonio C., Rodrigues, Ricardo R., and De Moraes, Gilberto J.

Subjects
Tarsonemus, Arthropoda, Tarsonemus confusus, Arachnida, Prostigmata, Animalia, Biodiversity, Tarsonemidae, Taxonomy
Abstract

Tarsonemus confusus Ewing Tarsonemus confusus Ewing, 1939: 26. Specimens examined: Prados (MG): Myrcia tomentosa (Aubl.) DC., VI-2012 (1 ♀); Lajeado/Teutônia (RS): Calyptranthes tricona D. Legrand, IV-2012 (3 ♀♀), XII-2012 (1 ♀), Myrciaria plinioides, IV-2012 (1 ♀), XII-2012 (1 ♀). Previous reports: Amazonas —Agroecosystems: Citrus sinensis (L.) Osbeck (Rutaceae); Distrito Federal— Natural ecosystems (Cerrado): undetermined plant (Rezende et al. 2014); Goiás —Agroecosystems: Glycine max (Rezende et al. 2014); Natural ecosystems (Cerrado): undetermined plant (Rezende et al. 2014); Mato Grosso —Agroecosystems: Hevea brasiliensis (Demite & Feres 2008); Natural ecosystems: Bauhinia longifolia (Bong.) Steud. (Fabaceae), Qualea sp. (Vochysiaceae), and on an unidentified Myrtaceae (Demite et al. 2009); Minas Gerais —Agroecosystems: G. max (Rezende et al. 2014); Pará —Agroecosystems: Annona muricata L. (Annonaceae); São Paulo —Agroecosystems: Citrus sp. (Rutaceae) and Saccharum sp. (Poaceae) (Demite et al. 2015), H. brasiliensis (Bellini et al. 2015); Natural ecosystems (Cerrado): Campomanesia pubescens, Myrcia guianensis, Myrcia venulosa, Psidium australe Cambess. (Myrtaceae), P. guajava, Psidium guineense Sw. (Myrtaceae) (Lofego et al. 2005, Lofego & Moraes 2006); Natural ecosystems (Atlantic Forest): A. klotzschii, T. casaretti (Demite et al. 2013; cited as A. communis) and Lantana fucata Lindl. (Verbenaceae) (Feres et al. 2005; cited as Lantana lilacina). and on unidentified plant (Demite et al. 2012); Tocantins —Agroecosystems: Calopogonium mucunoide Desv. (Fabaceae), H. guazumifolia (Malvaceae), Sida urens L. (Malvaceae) and Waltheria indica L., cited as Waltheria americana (Malvaceae) (Cruz et al. 2012)., Published as part of Demite, Peterson R., Cavalcante, Ana C. C., Lofego, Antonio C., Rodrigues, Ricardo R. & De Moraes, Gilberto J., 2022, Tarsonemid mites (Acari: Tarsonemidae) on myrtaceous plants of the Atlantic Forest, Brazil, with description of a new species of Tarsonemus Canestrini & Fanzago, pp. 153-168 in Zootaxa 5094 (1) on page 164, DOI: 10.11646/zootaxa.5094.1.6, http://zenodo.org/record/5965003, {"references":["Ewing, H. E. (1939) A revision of the mites of the Subfamily Tarsoneminae of North America, the West Indies and the Hawaiian Islands. United States Department of Agricultural Technical Bulletin, 653, 1 - 64.","Rezende, J. M., Lofego, A. C., Nuvoloni, F. M. & Navia, D. (2014) Mites from Cerrado fragments and adjacent soybean crops: does the native vegetation help or harm the plantation? Experimental and Applied Acarology, 64 (4), 501 - 518. https: // doi. org / 10.1007 / s 10493 - 014 - 9844 - 5","Demite, P. R. & Feres, R. J. F. (2008) Influencia de fragmentos de Cerrado na distribuicao de acaros em seringal. Neotropical Entomology, 37 (2), 196 - 204. https: // doi. org / 10.1590 / S 1519 - 566 X 2008000200015","Demite, P. R., Feres, R. J. F., Lofego, A. C. & Oliveira, A. R. (2009) Plant inhabiting mites (Acari) from the Cerrado biome of Mato Grosso State, Brazil. Zootaxa, 2061 (1), 45 - 60. https: // doi. org / 10.11646 / zootaxa. 2061.1.3","Demite, P. R., Feres, R. J. F. & Lofego, A. C. (2015) Influence of agricultural environment on the plant mite community in forest fragments. Brazilian Journal of Biology, 75 (2), 396 - 404. https: // doi. org / 10.1590 / 1519 - 6984.14913","Lofego, A. C., Ochoa, R. & Moraes, G. J. de (2005) Some tarsonemid mites (Acari: Tarsonemidae) from the Brazilian \" Cerrado \" vegetation, with descriptions of three new species. Zootaxa, 823 (1), 1 - 27. https: // doi. org / 10.11646 / zootaxa. 823.1.1","Demite, P. R., Lofego, A. C. & Feres, R. J. F. (2013) Mite (Acari; Arachnida) diversity of two native plants in fragments of a semideciduous seasonal forest in Brazil. Systematics and Biodiversity, 11 (2), 141 - 148. https: // doi. org / 10.1080 / 14772000.2013.806368","Feres, R. J. F., Lofego, A. C. & Oliveira, A. R. (2005) Acaros planticolas (Acari) da \" Estacao Ecologica do Noroeste Paulista \", Estado de Sao Paulo, Brasil. Biota Neotropica, 5 (1), 43 - 56. https: // doi. org / 10.1590 / S 1676 - 06032005000100005","Demite, P. R., Lofego, A. C. & Feres, R. J. F. (2012) Acarofauna de fragmentos florestais remanescentes na regiao noroeste do estado de Sao Paulo. In: Nechi Junior, O. N. (Ed.), Fauna e flora de fragmentos florestais remanescentes da regiao noroeste do estado de Sao Paulo. Editora Holos, Ribeirao Preto, pp. 167 - 179.","Cruz, W. P. da, Sarmento, R. A., Teodoro, A. V., Erasmo, E. A. L., Pedro Neto, M., Ignacio, M. & Ferreira Junior, D. F. (2012) Acarofauna em cultivo de pinhao-manso e plantas espontaneas associadas. Pesquisa Agropecuaria Brasilseira, 47 (3), 319 - 327. https: // doi. org / 10.1590 / S 0100 - 204 X 2012000300002"]}

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2022
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38. Metatarsonemus megasolenidii Lofego & Ochoa

Author

Demite, Peterson R., Cavalcante, Ana C. C., Lofego, Antonio C., Rodrigues, Ricardo R., and De Moraes, Gilberto J.

Subjects
Arthropoda, Arachnida, Prostigmata, Animalia, Biodiversity, Tarsonemidae, Metatarsonemus, Metatarsonemus megasolenidii, Taxonomy
Abstract

Metatarsonemus megasolenidii Lofego & Ochoa Metatarsonemus megasolenidii Lofego & Ochoa in Lofego et al., 2005: 7. Specimens examined: Gália (SP): Campomanesia guazumifolia (Cambess.) O. Berg., VI-2012 (1 ♀); Sete Barras (SP): Eugenia melanogyna (D.Legrand) Sobral; VI-2012 (2 ♀); Eugenia mosenii (Kausel) Sobral, VI-2012 (3 ♀); Myrcia neosuaveolens E. Lucas & C.E. Wilson, VI-2012 (1 ♀); Myrcia flagellaris (D. Legrand) Sobral, VI-2012 (1 ♀); Cananéia (SP): Myrcia multiflora (Lam.) DC., VI-2012 (1 ♀); Prados (MG): M. splendens, XII-2012 (1 ♀). Previous reports: Goiás —Natural ecosystems (Cerrado) undetermined plant (Rezende et al. 2014); São Paulo —Natural ecosystems (Cerrado): Campomanesia pubescens (Mart. ex DC.) O.Berg (Myrtaceae), Myrcia guianensis (Aubl.) DC. (Myrtaceae) and Myrcia venulosa DC. (Myrtaceae) (Lofego et al. 2005, Lofego & Moraes 2006); Natural ecosystems (Atlantic Forest): Acalypha diversifolia Jacq. (Euphorbiaceae) (Buosi et al. 2006, Feres et al. 2007), Alchornea glandulosa Poepp. (Euphorbiaceae) (Buosi et al. 2006, Feres et al. 2007) and Actinostemom klotzschii (Buosi et al. 2006, Feres et al. 2007, Demite et al. 2013; cited as A. communis)., Published as part of Demite, Peterson R., Cavalcante, Ana C. C., Lofego, Antonio C., Rodrigues, Ricardo R. & De Moraes, Gilberto J., 2022, Tarsonemid mites (Acari: Tarsonemidae) on myrtaceous plants of the Atlantic Forest, Brazil, with description of a new species of Tarsonemus Canestrini & Fanzago, pp. 153-168 in Zootaxa 5094 (1) on page 159, DOI: 10.11646/zootaxa.5094.1.6, http://zenodo.org/record/5965003, {"references":["Lofego, A. C., Ochoa, R. & Moraes, G. J. de (2005) Some tarsonemid mites (Acari: Tarsonemidae) from the Brazilian \" Cerrado \" vegetation, with descriptions of three new species. Zootaxa, 823 (1), 1 - 27. https: // doi. org / 10.11646 / zootaxa. 823.1.1","Rezende, J. M., Lofego, A. C., Nuvoloni, F. M. & Navia, D. (2014) Mites from Cerrado fragments and adjacent soybean crops: does the native vegetation help or harm the plantation? Experimental and Applied Acarology, 64 (4), 501 - 518. https: // doi. org / 10.1007 / s 10493 - 014 - 9844 - 5","Buosi, R., Feres, R. J. F., Oliveira, A. R., Lofego, A. C. & Hernandes, F. A. (2006) Acaros planticolas (Acari) da \" Estacao Ecologica de Paulo de Faria \", Estado de Sao Paulo, Brasil. Biota Neotropica, 6, 1 - 20. https: // doi. org / 10.1590 / S 1676 - 06032006000100009","Feres, R. J. F., Buosi, R., Daud, R. D. & Demite, P. R. (2007) Padroes ecologicos da comunidade de acaros em euforbiaceas de um fragmento de Mata Estacional Semidecidual, no Estado de Sao Paulo. Biota Neotropica, 7, 1 - 10. https: // doi. org / 10.1590 / S 1676 - 06032007000200022","Demite, P. R., Lofego, A. C. & Feres, R. J. F. (2013) Mite (Acari; Arachnida) diversity of two native plants in fragments of a semideciduous seasonal forest in Brazil. Systematics and Biodiversity, 11 (2), 141 - 148. https: // doi. org / 10.1080 / 14772000.2013.806368"]}

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2022
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39. Tarsonemid mites (Acari: Tarsonemidae) on myrtaceous plants of the Atlantic Forest, Brazil, with description of a new species of Tarsonemus Canestrini & Fanzago

Author

Demite, Peterson R., Cavalcante, Ana C. C., Lofego, Antonio C., Rodrigues, Ricardo R., and De Moraes, Gilberto J.

Subjects
Tracheophyta, Arthropoda, Poales, Arachnida, Liliopsida, Prostigmata, Animalia, Biodiversity, Tarsonemidae, Plantae, Poaceae, Taxonomy
Abstract

Demite, Peterson R., Cavalcante, Ana C. C., Lofego, Antonio C., Rodrigues, Ricardo R., De Moraes, Gilberto J. (2022): Tarsonemid mites (Acari: Tarsonemidae) on myrtaceous plants of the Atlantic Forest, Brazil, with description of a new species of Tarsonemus Canestrini & Fanzago. Zootaxa 5094 (1): 153-168, DOI: https://doi.org/10.11646/zootaxa.5094.1.6

Published
2022

40. Xenotarsonemus cerrado Lofego, Moraes & Ochoa

Author

Demite, Peterson R., Cavalcante, Ana C. C., Lofego, Antonio C., Rodrigues, Ricardo R., and De Moraes, Gilberto J.

Subjects
Arthropoda, Xenotarsonemus, Arachnida, Prostigmata, Animalia, Biodiversity, Xenotarsonemus cerrado, Tarsonemidae, Taxonomy
Abstract

Xenotarsonemus cerrado Lofego, Moraes & Ochoa Xenotarsonemus cerrado Lofego, Moraes & Ochoa, 2007: 2. Specimens examined: Prados (MG): Campomanesia pubescens, VI-2012 (2 ♀). Previous reports: São Paulo —Natural ecosystems (Cerrado): C. pubescens and Desmodium incanum (Lofego et al. 2007); Natural ecosystems (Atlantic Forest): plant not mentioned (Demite et al. 2012)., Published as part of Demite, Peterson R., Cavalcante, Ana C. C., Lofego, Antonio C., Rodrigues, Ricardo R. & De Moraes, Gilberto J., 2022, Tarsonemid mites (Acari: Tarsonemidae) on myrtaceous plants of the Atlantic Forest, Brazil, with description of a new species of Tarsonemus Canestrini & Fanzago, pp. 153-168 in Zootaxa 5094 (1) on page 165, DOI: 10.11646/zootaxa.5094.1.6, http://zenodo.org/record/5965003, {"references":["Lofego, A. C., Moraes, G. J. de & Ochoa, R. (2007) Four new species of Xenotarsonemus (Acari: Tarsonemidae) from Brazil. Zootaxa, 1646 (1), 1 - 15. https: // doi. org / 10.11646 / zootaxa. 1646.1.1","Demite, P. R., Lofego, A. C. & Feres, R. J. F. (2012) Acarofauna de fragmentos florestais remanescentes na regiao noroeste do estado de Sao Paulo. In: Nechi Junior, O. N. (Ed.), Fauna e flora de fragmentos florestais remanescentes da regiao noroeste do estado de Sao Paulo. Editora Holos, Ribeirao Preto, pp. 167 - 179."]}

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2022
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41. Tarsonemus bilobatus Suski 1965

Author

Demite, Peterson R., Cavalcante, Ana C. C., Lofego, Antonio C., Rodrigues, Ricardo R., and De Moraes, Gilberto J.

Subjects
Tarsonemus, Arthropoda, Arachnida, Prostigmata, Tarsonemus bilobatus, Animalia, Biodiversity, Tarsonemidae, Taxonomy
Abstract

Tarsonemus bilobatus Suski Tarsonemus bilobatus Suski, 1965: 539. Specimens examined: Prados (MG): Campomanesia pubescens (Mart. ex DC.) O.Berg, VI-2012 (2 ♀). Previous reports: Goiás —Agroecosystems: Glycine max (L.) Merr., Fabaceae (Rezende et al. 2014); Minas Gerais —Agroecosystems: G. max (Rezende et al. 2015b); São Paulo —Natural ecosystems (Cerrado): C. pubescens and Psidium guajava L. (Myrtaceae) (Lofego et al. 2005, Lofego & Moraes); Natural ecosystems (Atlantic Forest): Alchornea glandulosa and Desmodium incanum (Sw.) DC. (Fabaceae) (Feres et al. 2005; cited as Desmodium canun) and on unidentified plants (Demite et al. 2012); Tocantins —Agroecosystems: Jatropha curcas L., Euphorbiaceae, Helicteres guazumifolia Kunth (Malvaceae), Senna obtusifolia H.S.Irwin & Barneby (Fabaceae), Sida cordifolia L. (Malvaceae), Sida rhombifolia L. (Malvaceae) (Cruz et al. 2012)., Published as part of Demite, Peterson R., Cavalcante, Ana C. C., Lofego, Antonio C., Rodrigues, Ricardo R. & De Moraes, Gilberto J., 2022, Tarsonemid mites (Acari: Tarsonemidae) on myrtaceous plants of the Atlantic Forest, Brazil, with description of a new species of Tarsonemus Canestrini & Fanzago, pp. 153-168 in Zootaxa 5094 (1) on page 159, DOI: 10.11646/zootaxa.5094.1.6, http://zenodo.org/record/5965003, {"references":["Suski, Z. W. (1965) Tarsonemid mites on apple trees in Poland. II. Tarsonemus bilobatus n. sp. (Acarina tarsonemidae). Bulletin de Liacademie Polonaise des Sciences, C 1, V, Serie des sciences biologiques, 13 (9), 539 - 544.","Rezende, J. M., Lofego, A. C., Nuvoloni, F. M. & Navia, D. (2014) Mites from Cerrado fragments and adjacent soybean crops: does the native vegetation help or harm the plantation? Experimental and Applied Acarology, 64 (4), 501 - 518. https: // doi. org / 10.1007 / s 10493 - 014 - 9844 - 5","Rezende, J. M., Lofego, A. C. & Ochoa, R. (2015 b) Two new species of Daidalotarsonemus (Acari: Prostigmata: Tarsonemidae) from Brazil. Acarologia, 55 (4), 435 - 448.","Lofego, A. C., Ochoa, R. & Moraes, G. J. de (2005) Some tarsonemid mites (Acari: Tarsonemidae) from the Brazilian \" Cerrado \" vegetation, with descriptions of three new species. Zootaxa, 823 (1), 1 - 27. https: // doi. org / 10.11646 / zootaxa. 823.1.1","Feres, R. J. F., Lofego, A. C. & Oliveira, A. R. (2005) Acaros planticolas (Acari) da \" Estacao Ecologica do Noroeste Paulista \", Estado de Sao Paulo, Brasil. Biota Neotropica, 5 (1), 43 - 56. https: // doi. org / 10.1590 / S 1676 - 06032005000100005","Demite, P. R., Lofego, A. C. & Feres, R. J. F. (2012) Acarofauna de fragmentos florestais remanescentes na regiao noroeste do estado de Sao Paulo. In: Nechi Junior, O. N. (Ed.), Fauna e flora de fragmentos florestais remanescentes da regiao noroeste do estado de Sao Paulo. Editora Holos, Ribeirao Preto, pp. 167 - 179.","Cruz, W. P. da, Sarmento, R. A., Teodoro, A. V., Erasmo, E. A. L., Pedro Neto, M., Ignacio, M. & Ferreira Junior, D. F. (2012) Acarofauna em cultivo de pinhao-manso e plantas espontaneas associadas. Pesquisa Agropecuaria Brasilseira, 47 (3), 319 - 327. https: // doi. org / 10.1590 / S 0100 - 204 X 2012000300002"]}

Published
2022
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42. Daidalotarsonemus esalqi Rezende, Lofego & Ochoa

Author

Demite, Peterson R., Cavalcante, Ana C. C., Lofego, Antonio C., Rodrigues, Ricardo R., and De Moraes, Gilberto J.

Subjects
Daidalotarsonemus, Arthropoda, Arachnida, Prostigmata, Animalia, Biodiversity, Daidalotarsonemus esalqi, Tarsonemidae, Taxonomy
Abstract

Daidalotarsonemus esalqi Rezende, Lofego & Ochoa Daidalotarsonemus esalqi Rezende, Lofego & Ochoa, 2015b: 436. Specimens examined: Lajeado (RS): Myrciaria plinioides D. Legrand, XII-2012 (1 ♀). Previous reports: Bahia —Agroecosystem: Theobroma cacao L. (Malvaceae) and Artocarpus heterophyllus Lam. (Moraceae) (Souza et al. 2018); São Paulo —Urban ecosystems: Hevea brasiliensis (Wild. ex A.Juss) Müll. Arg. (Euphorbiaceae) (Rezende et al. 2015b)., Published as part of Demite, Peterson R., Cavalcante, Ana C. C., Lofego, Antonio C., Rodrigues, Ricardo R. & De Moraes, Gilberto J., 2022, Tarsonemid mites (Acari: Tarsonemidae) on myrtaceous plants of the Atlantic Forest, Brazil, with description of a new species of Tarsonemus Canestrini & Fanzago, pp. 153-168 in Zootaxa 5094 (1) on page 158, DOI: 10.11646/zootaxa.5094.1.6, http://zenodo.org/record/5965003, {"references":["Rezende, J. M., Lofego, A. C. & Ochoa, R. (2015 b) Two new species of Daidalotarsonemus (Acari: Prostigmata: Tarsonemidae) from Brazil. Acarologia, 55 (4), 435 - 448."]}

Published
2022
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43. Fungitarsonemus pulvirosus Attiah

Author

Demite, Peterson R., Cavalcante, Ana C. C., Lofego, Antonio C., Rodrigues, Ricardo R., and De Moraes, Gilberto J.

Subjects
Fungitarsonemus pulvirosus, Arthropoda, Fungitarsonemus, Arachnida, Prostigmata, Animalia, Biodiversity, Tarsonemidae, Taxonomy
Abstract

Fungitarsonemus pulvirosus Attiah Fungitarsonemus pulvirosus Attiah, 1970: 193. Specimens examined: Prados (MG): Myrcia splendens (Sw.) DC., XII-2012 (1 ♀); Garuva (SC): Myrtaceae sp.5, IV-2013 (1 ♀). Previous reports: Goiás —Natural Ecosystems (Cerrado): undetermined plants (Rezende et al. 2014); São Paulo —Agroecosystems: Citrus sp. (Rutaceae) (Demite et al. 2015); Natural Ecosystems (Atlantic Forest): Actinostemom klotzschii (Didr.) Pax (Euphorbiaceae) (Demite et al. 2015; cited as A. communis), Trichilia casaretti (Meliaceae) (Demite et al. 2013)., Published as part of Demite, Peterson R., Cavalcante, Ana C. C., Lofego, Antonio C., Rodrigues, Ricardo R. & De Moraes, Gilberto J., 2022, Tarsonemid mites (Acari: Tarsonemidae) on myrtaceous plants of the Atlantic Forest, Brazil, with description of a new species of Tarsonemus Canestrini & Fanzago, pp. 153-168 in Zootaxa 5094 (1) on page 158, DOI: 10.11646/zootaxa.5094.1.6, http://zenodo.org/record/5965003, {"references":["Attiah, H. H. (1970) New tarsonemid mites associated with citrus in Florida (Acarina: Tarsonemidae). Florida Entomologist, 53 (4), 179 - 201. https: // doi. org / 10.2307 / 3493188","Rezende, J. M., Lofego, A. C., Nuvoloni, F. M. & Navia, D. (2014) Mites from Cerrado fragments and adjacent soybean crops: does the native vegetation help or harm the plantation? Experimental and Applied Acarology, 64 (4), 501 - 518. https: // doi. org / 10.1007 / s 10493 - 014 - 9844 - 5","Demite, P. R., Feres, R. J. F. & Lofego, A. C. (2015) Influence of agricultural environment on the plant mite community in forest fragments. Brazilian Journal of Biology, 75 (2), 396 - 404. https: // doi. org / 10.1590 / 1519 - 6984.14913","Demite, P. R., Lofego, A. C. & Feres, R. J. F. (2013) Mite (Acari; Arachnida) diversity of two native plants in fragments of a semideciduous seasonal forest in Brazil. Systematics and Biodiversity, 11 (2), 141 - 148. https: // doi. org / 10.1080 / 14772000.2013.806368"]}

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2022
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44. Brazilian Law: Full Speed in Reverse?

Author

METZGER, JEAN PAUL, LEWINSOHN, THOMAS M., JOLY, CARLOS A., VERDADE, LUCIANO M., MARTINELLI, LUIZ ANTONIO, and RODRIGUES, RICARDO R.

Published
2010

48. The risk of fake controversies for Brazilian environmental policies

Author

Rajão, Raoni, primary, Nobre, Antonio Donato, additional, Cunha, Evandro L.T.P., additional, Duarte, Tiago Ribeiro, additional, Marcolino, Camilla, additional, Soares-Filho, Britaldo, additional, Sparovek, Gerd, additional, Rodrigues, Ricardo R., additional, Valera, Carlos, additional, Bustamante, Mercedes, additional, Nobre, Carlos, additional, and Santos de Lima, Letícia, additional

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2022
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50. Combining regional to local restoration goals in the Brazilian Atlantic forest

Author

Lemos, Cassia M. G., Andrade, Pedro R., Rodrigues, Ricardo R., Hissa, Leticia, Aguiar, Ana P. D., Lemos, Cassia M. G., Andrade, Pedro R., Rodrigues, Ricardo R., Hissa, Leticia, and Aguiar, Ana P. D.

Abstract

To achieve regional and international large-scale restoration goals with minimum costs, several restoration commitments rely on natural regeneration, a passive and inexpensive strategy. However, natural regeneration potential may vary within the landscape, mainly due to its historical context. In this work, we use spatially explicit restoration scenarios to explore how and where, within a given region, multiple restoration commitments could be combined to achieve cost-effectiveness outcomes. Our goal is to facilitate the elaboration of forest restoration plans at the regional level, taking into consideration the costs for active and passive restoration methods. The approach includes (1) a statistical analysis to estimate the natural regeneration potential for a given area based on alternative sets of biophysical, land cover, and/or socioeconomic factors and (2) the use of a land change allocation model to explore the cost-effectiveness of combining multiple restoration commitments in a given area through alternative scenarios. We test our approach in a strategic region in the Brazilian Atlantic Forest Biome, the Paraiba Valley in São Paulo State. Using the available data for 2011, calibrated for 2015, we build alternative scenarios for allocating natural regeneration until 2025. Our models indicate that the natural regeneration potential of the region is actually very low, and the cost-effectiveness outcomes are similar for all scenarios. We believe our approach can be used to support the regional-level decision-making about the implementation of multiple commitments aiming at the same target area. It can also be combined with other approaches for more refined analysis (e.g., optimization models).

Published
2021
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