Microclimate and soil moisture in a silvopastoral system in southeastern Brazil

Pezzopane, José Ricardo Macedo; Bosi, Cristiam; Nicodemo, M. L. F.; Santos, P. M.; Cruz, Pedro Gomes da; Parmejiani, Renan Suaiden

doi:10.1590/1678-4499.0334

Cited by 58 publications

(49 citation statements)

References 14 publications

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“…Minimum air temperature in the understory was 0.16ºC lower in degraded area than in the mango orchard. Similar results were observed by Pezzopane et al (2015), in São Carlos, São Paulo State, where minimum air temperature was 0.10ºC lower in the forest understory with less vegetative cover than the other. In areas with less vegetation, minimum air temperature is usually lower, because having less vegetation facilitates the passage of longwave radiation (coming from Earth), leading to atmospheric cooling.…”

Section: Resultssupporting

confidence: 85%

“…The mango orchard reduced mean air temperature in the understory by 0.37ºC in comparison to the degraded area. Similar results were observed in São Carlos, where average air temperature was reduced by 0.25ºC in the forest understory with more vegetation coverage in comparison with the other understory (Pezzopane et al, 2015). This was lower than the results found in Jussari, Bahia State, where the reduction of the average air temperature was 1.25°C in the understory of the forest areas and a shaded cacao crop (Theobroma cacao L.) (Pinheiro et al, 2013).…”

Section: Resultssupporting

confidence: 78%

“…Reduction of maximum air temperature in understories has been observed in other studies, where the mean reduction was 0.77ºC in forest understories, in São Carlos, São Paulo State (Pezzopane et al, 2015) and 2.20ºC, in the understory of macadamia nut trees (Macadamia integrifolia Maiden & Betche), in São Mateus, Espírito Santo State (Pezzopane et al, 2010), in relation to other environments outside of the understory.…”

Section: Resultssupporting

confidence: 70%

“…The presence of trees reduces the average air temperature by 1.25ºC (Pinheiro et al, 2013), the maximum air temperature by 0.77ºC (Pezzopane et al, 2015), the air thermal amplitude by 2.40ºC, and the vapor pressure deficit of the understory by 0.34 kPa (Pezzopane et al, 2010). Therefore, planting trees may ameliorate understory microclimate (Pezzopane et al, 2010;2015;Pinheiro et al, 2013), especially in degraded areas with a history of land use changes.…”

Section: Introductionmentioning

confidence: 99%

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Microclimate in understories of a mango orchard and a degraded area in the Eastern Amazon

Rodrigues¹,

Miranda²,

Sousa³

2018

Rev. ambiente água

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Changes in land use alter regional microclimate. This study compared the microclimate in understories of a mango orchard and a degraded area in the municipality of Salinópolis, in the northeast of the Brazilian State Pará, eastern Amazon. In both environments, the microclimate was monitored through collecting data on the following variables: maximum, minimum and average air temperature, air thermal amplitude and vapor pressure deficit. The microclimate was monitored daily during four seasons: early rainy season, late rainy season, early dry season and late dry season, between December 2015 and November 2016. Vegetation coverage was the most important factor to soften maximum and average air temperature in the understories. Lower values of meteorological variables were observed in the mango orchard understory, especially during late rainy season and late dry season, except for minimum air temperature, which was lower in the understory of the degraded area, especially during the late rainy season. The microclimate in the understory differed between both environments, and mango orchards may ameliorate the understory microclimate more efficiently than degraded areas; therefore, the mango orchard can be used as an alternative for the rehabilitation of degraded areas.Keywords: air relative humidity, air temperature, thermal comfort.Microclima em sub-bosque de pomar de mangueiras e de vegetação de área degradada na Amazônia Oriental RESUMOModificações no uso da terra alteram o microclima regional. Este estudo teve como objetivo comparar o microclima em sub-bosque de um pomar de mangueiras e uma área degradada, no município de Salinópolis, nordeste do Estado do Pará, Amazônia Oriental, Brasil. O microclima no sub-bosque do pomar de mangueiras e no sub-bosque da área degradada foi monitorado por meio da temperatura máxima do ar, temperatura mínima do ar, temperatura média do ar, amplitude térmica, e déficit de pressão de vapor de água na atmosfera. O monitoramento do microclima no sub-bosque foi realizado diariamente durante quatro estações distintas, denominadas início da estação chuvosa, estação chuvosa, estação de transição e estação menos chuvosa, no período de dezembro de 2015 a novembro de 2016. A cobertura vegetal foi fator determinante na atenuação das temperaturas máximas e médias do ar no subbosque. Os menores valores das variáveis meteorológicas foram obtidos no sub-bosque do pomar de mangueiras, principalmente, nas estações chuvosa e menos chuvosa, exceto a temperatura mínima do ar que foi menor no sub-bosque da área degradada, sobretudo, no início da estação chuvosa. Os microclimas no sub-bosque diferem entre os dois ambientes, e o pomar de mangueiras pode melhorar o microclima no sub-bosque quando comparado ao sub-bosque da área degradada; portanto, o pomar de mangueiras pode ser utilizado como alternativa para reabilitação de áreas degradadas.Palavras-chave: conforto térmico, temperatura do ar, umidade relativa do ar.

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Section: Resultssupporting

confidence: 85%

Section: Resultssupporting

confidence: 78%

Section: Resultssupporting

confidence: 70%

Section: Introductionmentioning

confidence: 99%

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Microclimate in understories of a mango orchard and a degraded area in the Eastern Amazon

Rodrigues¹,

Miranda²,

Sousa³

2018

Rev. ambiente água

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“…Some studies have shown that shadow promoted by trees in silvopastoral systems reduce solar radiation, avoid soil moisture loss and increase air humidity (Paciullo et al, 2008;Law et al, 2011;Pezzopane et al, 2015) which contribute to entomophathogen establishment (Meyling et al, 2009).…”

Section: Introductionmentioning

confidence: 99%

Influence of pastoral systems on Mahanarva spectabilis (Distant) (Hemiptera: Cercopidae) and the entomopathogen Metarhizium anisopliae (Metsch.) Sorokin

Pitta¹,

Matiero²,

Corassa³

et al. 2019

Sci. Elec. Arch.

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The influence of Urochloa brizantha (variety Marandu) grazing systems on Mahanarva spectabilis (Distant) and the entomopathogen Metarhizium anisopliae (Metsch.) was studied to understand the benefits of integrated systems in pest management. The pastoral systems studied were: (M) monoculture, (SP) silvopastoral and (ICLF). We assessed the number, per square meter, of alive spittlebug nymphs or infected by M. anisopliae as well as the demanded number of entomopathogen sprays in each pasture system to control the pest. Throughout the experiment period, M. spectabilis was the unique species found. Silvopastoral had a higher number of alive nymphs and a lower percentage of the infected nymphs compared to pasture in monoculture; however, in both systems, only one spray of M. anisopliae was enough to keep the pest below its threshold. In agrosilvopastoral system, there was no spittlebugs infestation. Thus, intensified production systems such ICLF may be more sustainable, considering pest aspects.

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Soil water availability in a full sun pasture and in a silvopastoral system with eucalyptus

2019

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Microclimate and soil moisture in a silvopastoral system in southeastern Brazil

Cited by 58 publications

References 14 publications

Microclimate in understories of a mango orchard and a degraded area in the Eastern Amazon

Microclimate in understories of a mango orchard and a degraded area in the Eastern Amazon

Influence of pastoral systems on Mahanarva spectabilis (Distant) (Hemiptera: Cercopidae) and the entomopathogen Metarhizium anisopliae (Metsch.) Sorokin

Soil water availability in a full sun pasture and in a silvopastoral system with eucalyptus

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