排序方式: 共有3条查询结果,搜索用时 15 毫秒
1
1.
Makelele Isaac Ahanamungu Bauters Marijn Verheyen Kris Barthel Matti Six Johan Rütting Tobias Bodé Samuel Cizungu Ntaboba Landry Mujinya Bazirake Basile Boyemba Bosela Faustin Kimbesa Fabrice Ewango Corneille Boeckx Pascal 《Plant and Soil》2022,476(1-2):743-753
Plant and Soil - Many applied disciplines have recognized problems related to the practice of data analysis within their own communities. Some of them have even declared the existence of a... 相似文献
2.
Baumgartner Simon Bauters Marijn Drake Travis W. Barthel Matti Alebadwa Serge Bahizire Nadine Bazirake Basile Mujinya Six Johan Boeckx Pascal Van Oost Kristof 《Ecosystems》2023,26(3):553-567
Ecosystems - Aquatic losses of nutrients are important loss vectors in the nutrient budgets of tropical forests. Traditionally, research has focused mainly on losses of inorganic nutrient forms,... 相似文献
3.
Adrian Ho Hans Erens Basile Bazirake Mujinya Pascal Boeckx Geert Baert Bellinda Schneider Peter Frenzel Nico Boon Eric Van Ranst 《Applied and environmental microbiology》2013,79(23):7234-7240
Termite-derived methane contributes 3 to 4% to the total methane budget globally. Termites are not known to harbor methane-oxidizing microorganisms (methanotrophs). However, a considerable fraction of the methane produced can be consumed by methanotrophs that inhabit the mound material, yet the methanotroph ecology in these environments is virtually unknown. The potential for methane oxidation was determined using slurry incubations under conditions with high (12%) and in situ (∼0.004%) methane concentrations through a vertical profile of a termite (Macrotermes falciger) mound and a reference soil. Interestingly, the mound material showed higher methanotrophic activity. The methanotroph community structure was determined by means of a pmoA-based diagnostic microarray. Although the methanotrophs in the mound were derived from populations in the reference soil, it appears that termite activity selected for a distinct community. Applying an indicator species analysis revealed that putative atmospheric methane oxidizers (high-indicator-value probes specific for the JR3 cluster) were indicative of the active nest area, whereas methanotrophs belonging to both type I and type II were indicative of the reference soil. We conclude that termites modify their environment, resulting in higher methane oxidation and selecting and/or enriching for a distinct methanotroph population. 相似文献
1