2010 |
Mergulhão et al., 2010Mergulhão, A.C.E.S.; Burity, H.A.; Silva, F.S.B.; Pereira, S.V.; Maia, L.C. 2010. Glomalin production and microbial activity in soils impacted by gypsum mining in a Brazilian semiarid area. American Journal of Agricultural and Biological Sciences 5: 422-429.
|
Araripina-PE |
Caatinga |
-Native forest |
The EEG can be used as an indicator of differences between preserved “caatinga” versus areas impacted by gypsum mining. |
-Degraded area surrounding the mine |
-Waste deposit area |
-Interface between the waste deposit and mining degraded area |
2012 |
Carneiro et al., 2012Carneiro, R.F.V.; Cardozo Junior, F.M.; Pereira, L.F.; Araújo, A.S.F.; Silva, G.A. 2012. Arbuscular mycorrhizal fungi as indicators of the recovery of degraded areas in northeastern Brazil. Revista de Ciências Agronômicas 43: 648-657 (in Portuguese, with the abstract in English).
|
Gilbués-PI |
Caatinga |
-Area under recovery with plant legumes and forage grasses |
The cultivation of grasses and forage legumes associated with erosion control practices increases number of AMF community in degraded areas |
-Area degraded with erosion |
-Area with initial degradation process |
-Native forest |
2012 |
Silva et al., 2012Silva, C.F.; Simões-Araújo, J.L.; Silva, E.M.R.; Pereira, M.G.; Freitas, M.S.M.; Saggin Júnior, O.J.; Martins, M.A. 2012. Arbuscular mycorrhizal fungi and glomalin-soil related protein in degraded areas and revegetated with eucalypt and wattle. Ciência Florestal 22: 749-761 (in Portuguese, with abstract in English).
|
Campos dos Goytacazes-RJ |
Atlantic Forest |
-Pure planting of Eucalyptus camaldulensis |
-The diversity of AMF spores, T-GRSP and EE-GRSP increases with the revegetation of the clay pit; |
-Pure planting of Acacia mangium
|
-Consortium of Eucalyptus camaldulensis + Acacia mangium |
-Consortium of Eucalyptus camaldulensis + Acacia mangium promotes an increase in the diversity of AMF, in relation to eucalyptus monoculture. |
-Degraded area with vegetation spontaneous |
2013 |
Vasconcellos et al., 2013Vasconcellos, R.L.F.; Bonfim, J.A.; Barreta, D.; Cardoso, E.J.B.N. 2013. Arbuscular mycorrhizal fungi and glomalin‐related soil protein as potential indicators of soil quality in a recuperation gradient of the Atlantic Forest in Brazil. Degradation & Development 27: 25-334.
|
São Paulo |
Atlantic Forest |
-Native forest area (NT) |
-Higher diversity of AMF in NT than others; |
-5 years after revegetation |
-AMF species richness was correlated with the gradient of environmental restoration; |
-10 years after revegetation |
- EE-GRSP and T-GRSP positively related to total carbon, nitrogen and enzymatic activity, but negatively related to bulk density. |
-20 years after revegetation |
-Glomalin and AMF may be used as indicators of soil quality in the Atlantic forest. |
2014 |
Silva et al., 2014Silva, C.F.; Simões-Araújo, J.L.; Silva, E.M.R.; Pereira, M.G.; Schiavo, J.A.; Freitas, M.S.M.; Saggin Júnior, O.J.; Martins, M.A. 2014. Arbuscular mycorrhizal fungi: diversity, composition and glomalin area and degraded revegetated with sesbânia. Revista Brasielira de Ciência do Solo 38: 423-431 (in Portuguese, with abstract in English).
|
Campos dos Goytacazes-RJ |
Atlantic forest |
-Soil degraded by clay extraction with spontaneous vegetation |
The revegetation of the clay extraction pit with Sesbania virgata, in pure or intercropped plantations reduces the amount of soil protein related to glomalin |
-Pure plantings of Sesbania virgata
|
-Integrated system with Eucalyptus camaldulensis and Acacia mangium
|
2015 |
Silva et al., 2015Silva, D.K.A.; Coutinho, F.P.; Escobar, I.E.C.; Souza, R.G.; Oehl, F.; Silva, G.A.; Cavalcante, U.M.T.; Maia, L.C. 2015. The community of arbuscular mycorrhizal fungi in natural and revegetated coastal areas (Atlantic Forest) in northeastern Brazil. Biodiversity and Conservation 24: 2213-2226.
|
Mataraca-PB |
Atlantic Forest |
-Natural and revegetated area |
Revegetated areas areas had a higher species richness of AMF than Natural areas. |
2016 |
Nogueira et al., 2016Nogueira, L.R.; Silva, C.F.; Pereira, M.G.; Gaia-Gomes, J.H.; Silva, E.M.R. 2016. Biological properties and organic matter dynamics of soil in pasture and natural regeneration areas in the Atlantic Forest biome. Revista Brasileira de Ciência do Solo 40: e0150366.
|
Passa Vinte-MG |
Atlantic Forest |
-Secondary Forest |
The conversion of native forest into pasture reduced T-GRSP and EE-GRSP. |
-Natural Pasture |
-Natural Regeneration areas |
2017 |
Silva et al., 2017Silva, C.F.; Pereira, M.G.; Feitosa, J.C.F.; Fonseca Junior, A.M.; Gaia-Gomes, J.H.; Menezes, C.E.G. 2017. Soil organic matter fractions, chemical attributes and aggregation under forestry and agricultural systems. Comunicata Scientiae 8: 459-468.
|
Pinheiral-RJ |
Atlantic Forest |
-Secondary forest early stage |
The conversion of forest to agriculture reduces the soil protein content related to glomalin. |
-Secondary forest medium stage |
-Secondary forest advanced stage |
-Pasture |
-Perennial agriculture |
-Annual crops |
2018 |
Pereira et al., 2018Pereira, J.E.S.; Barreto-Garcia, P.A.B.; Scoriza, R.N.; Saggin Junior, O.J.; Gomes, V.S. 2018. Arbuscular mycorrhizal fungi in soils of arboreal Caatinga submitted to forest management. Revista Brasileira de Ciências Agrárias 13: e5497.
|
Contendas do Sincorá-BA |
Caatinga |
Three types of forest management |
-The AMF community is sensitive to changes caused by forest management. |
-Clear-cutting |
-Selective logging based on diameter |
-The different managements cause changes in the AMF community. |
-Selective logging based on species |
-Control area (Native forest) |
-The AMF community can recover over time. |
2018 |
Silva Filho et al., 2018Silva Filho, C.P.; M.P.; Gomes, F.V.; Martins, C.; Cunha, C.S.; Lobato, M.G. 2018. Glomalin-related soil protein content in areas of degraded and revegetated caatinga in the municipality of Irauçuba. Journal of Agricultural Science 10: 302-312.
|
Sobral-CE |
Caatinga |
-Overgrazing |
The contents of GRSPEE and GRSPT of the native forest were higher than those found in the areas of exclusion and overgrazing |
-Exclusion |
-Native Forest |
2019 |
Silva et al., 2019Silva, F. F.; Santos, T.A.; Jesus, E.C.; Chaer, G.M. 2019. Characterization of rhizobia and arbuscular mycorrhizal fungi in areas impacted by gravel mining in Brazil. Caatinga 32: 995-1004.
|
Assú-RN Pendências-RN Carnaubais-RN |
Caatinga |
-Gravel mine J1-P |
AMF presented lower densities in the evaluated areas when compared to those in the adjacent native vegetation areas. |
-Gravel mine J2-P |
-Umpjack base PB-P |
-Waste disposal area WDA-P |
-Native vegetation |
2020 |
Weber et al., 2020Weber, O.B.; Silva, M.C.B.; Silva, C.F. 2020. Biological and chemical attributes of soils under forest species in northeast Brazil. Journal of Forestry Research 31: 1959-1973.
|
Acaraú-CE |
Atlantic Forest |
-Forest planting with native tree species |
The cultivation of these species for 6 years increases glomalin-related soil protein. |
-control area (non-forested area) |