000			02044nab|a22003497a|4500
001			68986
003			MX-TxCIM
005			20250630111800.0
008			25061222023||||-uk||p|op||||00||0|eengdd
022			_a1360-1385
022			_a1878-4372 (Online)
024	8		_ahttps://doi.org/10.1016/j.tplants.2022.08.016
040			_aMX-TxCIM
041			_aeng
100	1		_aGhatak, A. _918816
245	1	0	_aPANOMICS at the interface of root–soil microbiome and BNI
260			_aUnited Kingdom : _bElsevier Ltd., _c2023.
500			_aPeer review
520			_aNitrification and denitrification are soil biological processes responsible for large nitrogen losses from agricultural soils and generation of the greenhouse gas (GHG) N2O. Increased use of nitrogen fertilizer and the resulting decline in nitrogen use efficiency (NUE) are a major concern in agroecosystems. This nitrogen cycle in the rhizosphere is influenced by an intimate soil microbiome–root exudate interaction and biological nitrification inhibition (BNI). A PANOMICS approach can dissect these processes. We review breakthroughs in this area, including identification and characterization of root exudates by metabolomics and proteomics, which facilitate better understanding of belowground chemical communications and help identify new biological nitrification inhibitors (BNIs). We also address challenges for advancing the understanding of the role root exudates play in biotic and abiotic stresses.
546			_aText in English
650		7	_aRoots _2AGROVOC _91755
650		7	_aSoil microorganisms _2AGROVOC _97739
650		7	_aNitrification inhibitors _2AGROVOC _94939
650		7	_aGreenhouse gases _2AGROVOC _91958
650		7	_aRhizosphere _2AGROVOC _913746
700	1		_aChaturvedi, P. _918817
700	1		_aWaldherr, S. _939445
700	0		_aGuntur Venkata Subbarao _92828
700	1		_aWeckwerth, W. _918826
773	0		_tTrends in Plant Science _gv. 28, no. 1, p. 106-122 _dUnited Kingdom : Elsevier Ltd., 2023. _z1360-1385 _wG93809
942			_cJA _n0 _2ddc
999			_c68986 _d68978