Abstract
Carbon storage is affected by photosynthesis (P(n)) and soil respiration (R(s)), which have been studied extensively in natural and agricultural systems. However, the effects of P(n) and R(s) on carbon storages in the presence of arbuscular mycorrhizal fungi (AMF) in coalfields remain unclear. A field experiment was established in 2014 in Shendong coal mining subsidence area. The treatments comprised two inoculation levels (inoculated with or without 100 g AMF inoculums per seedlings) and four plant species [wild cherry (Prunus discadenia Koebne L.), cerasus humilis (Prunus dictyneura Diels L.), shiny leaf Yellow horn (Xanthoceras sorbifolium Bunge L.) and apricot (Armeniaca sibirica L.)]. AMF increased P(n) of four species ranging from 15.3% to 33.1% and carbon storage, averaged by 17.2% compared to controls. Soil organic carbon (OC), easily extractable glomalin-relation soil protein (EE-GRSP), and total glomalin-relation soil protein (T-GRSP) were significantly increased by AMF treatment. The effect of AMF on the sensitivity of R(s) depended on soil temperature. The results highlighted the exponential models to explain the responses of R(s) to soil temperature, and for the first time quantified AMF caused carbon sequestration and R(s). Thus, to our knowledge, AMF is beneficial to ecosystems through facilitating carbon conservation in coalfield soils.