Characterization of Bacterial and Fungal Communities in Soils under Different Farming Systems. The Cacao Plantation in Sulawesi Island—Indonesia

Cruz A. F.(2019)Cacao plantations on Sulawesi Island, Indonesia: I—an agro-ecological analysis of conventional and organic farms Org. Agric. 9 225-234

Suwastika I. N.(2017)A. M., Semenov, E. V. Semenova, T. V. Kuznetsova, A. K. Khozaeva, A. M. Kuznetsov, and M. V. Semenov, “Relationships between greenhouse gas emissions and cultivable bacterial populations in conventional, organic and long-term grass plots as affected by environmental variables and disturbances Soil Biol. Biochem. 114 145-159

Sasaki H.(2013)Daily dynamics of bacterial numbers, CO Eurasian Soil Sci. 46 869-884

Uchiyama T.(2013) emissions from soil and relationships between their wavelike fluctuations and succession of the microbial community Diversity 5 73-98

Pakawaru N. A.(2012)454 pyrosequencing analysis of fungal assemblages from geographically distant, disparate soils reveals spatial patterning and a core mycobiome PLoS One 7 e30087-6759

Wijayanti W.(2010)Direct comparisons of Illumina vs. Roche 454 sequencing technologies on the same microbial community DNA sample Appl. Environ. Microbiol. 76 6751-8

Basri Z.(2018)Horizon-specific bacterial community composition of German grassland soils, as revealed by pyrosequencing-based analysis of 16S rRNA genes Agric. Ecosyst. Environ. 264 1-1403

Ishizaki Y.(2008)Response of soil microbial communities to agroecological versus conventional systems of extensive agriculture Soil Biol. Biochem. 40 1390-132

Shiina T.(2010)Importance of (DNA) quality in comparative soil microbial community structure analyses J. Microbiol. Methods 83 127-156

van Bruggen A. H. C.(2017)A PCR-based toolbox for the culture-independent quantification of total bacterial abundances in plant environments Sci. Rep. 7 40266-294

Cruz A. F.(2019)Cacao plantations on Sulawesi Island, Indonesia: I—an agro-ecological analysis of conventional and organic farms Org. Agric. 9 225-234

Suwastika I. N.(2017)A. M., Semenov, E. V. Semenova, T. V. Kuznetsova, A. K. Khozaeva, A. M. Kuznetsov, and M. V. Semenov, “Relationships between greenhouse gas emissions and cultivable bacterial populations in conventional, organic and long-term grass plots as affected by environmental variables and disturbances Soil Biol. Biochem. 114 145-159

Sasaki H.(2013)Daily dynamics of bacterial numbers, CO Eurasian Soil Sci. 46 869-884

Uchiyama T.(2013) emissions from soil and relationships between their wavelike fluctuations and succession of the microbial community Diversity 5 73-98

Pakawaru N. A.(2012)454 pyrosequencing analysis of fungal assemblages from geographically distant, disparate soils reveals spatial patterning and a core mycobiome PLoS One 7 e30087-6759

Wijayanti W.(2010)Direct comparisons of Illumina vs. Roche 454 sequencing technologies on the same microbial community DNA sample Appl. Environ. Microbiol. 76 6751-8

Basri Z.(2018)Horizon-specific bacterial community composition of German grassland soils, as revealed by pyrosequencing-based analysis of 16S rRNA genes Agric. Ecosyst. Environ. 264 1-1403

Ishizaki Y.(2008)Response of soil microbial communities to agroecological versus conventional systems of extensive agriculture Soil Biol. Biochem. 40 1390-132

Shiina T.(2010)Importance of (DNA) quality in comparative soil microbial community structure analyses J. Microbiol. Methods 83 127-156

van Bruggen A. H. C.(2017)A PCR-based toolbox for the culture-independent quantification of total bacterial abundances in plant environments Sci. Rep. 7 40266-294