PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
29555906-3	2018	Here we find that N2O flux can be predicted by models incorporating soil nitrate concentration (NO3-), water content and temperature using a global field survey of N2O emissions and potential driving factors across a wide range of organic soils.	Nitrous Oxide	18-21	NBL1, DAN family BMP antagonist	Homo sapiens	96-99	
29555906-4	2018	N2O emissions increase with NO3- and follow a bell-shaped distribution with water content.	Nitrous Oxide	0-3	NBL1, DAN family BMP antagonist	Homo sapiens	28-31	
29555906-6	2018	Above 5 mg NO3--N kg-1, either draining wet soils or irrigating well-drained soils increases N2O emission by orders of magnitude.	Nitrous Oxide	93-96	NBL1, DAN family BMP antagonist	Homo sapiens	11-14	
29555906-7	2018	As soil temperature together with NO3- explains 69% of N2O emission, tropical wetlands should be a priority for N2O management.	Nitrous Oxide	55-58	NBL1, DAN family BMP antagonist	Homo sapiens	34-37