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18 华中农业大学学报第 42 卷

［26］ LIU L，ZHANG S，CHEN M，et al.Fe-modified biochar com⁃ of soil science and plant nutrition，2022，22（3）：3568-3581.
bined with mineral fertilization promotes soil organic phospho⁃ ［37］ DUAN M L，YAN R P，WANG Q J，et al.Integrated microbi⁃
rus mineralization by shifting the diversity of phoD-harboring ological and metabolomics analyses to understand the mecha⁃
bacteria within soil aggregates in saline-alkaline paddy soil［J］. nism that allows modified biochar to affect the alkalinity of sa⁃
Journal of soils and sediments，2022，23：619-633. line soil and winter wheat growth［J/OL］.The science of the
［27］ XUE B，HUANG L，HUANG Y N，et al.Roles of soil organic total environment，2023，866：161330［2023-02-06］. http：//
carbon and iron oxides on aggregate formation and stability in doi.org/10.1016/j.scitotenv.2022.161330.
two paddy soils［J］. Soil & tillage research，2019，187：［38］ FARHANGI-ABRIZ S， GHASSEMI-GOLEZANI K.
161-171. Changes in soil properties and salt tolerance of safflower in re⁃
［28］鲁新蕊，陈国双，李秀军 .酸化生物炭改良苏打盐碱土的效应 sponse to biochar-based metal oxide nanocomposites of mag⁃
［J］. 沈阳农业大学学报，2017，48（4）：462-466.LU X R， nesium and manganese［J/OL］. Ecotoxicology and environ⁃
CHEN G S，LI X J.Experimental effects of acidified biochar mental safety，2021，211：111904［2023-02-06］. http：//doi.
on saline-sodic［J］.Journal of Shenyang Agricultural Universi⁃
org/10.1016/j.ecoenv.2021.111904.
ty，2017，48（4）：462-466（in Chinese with English abstract）.
［39］ ZHANG P，BING X，JIAO L，et al.Amelioration effects of coast⁃
［29］ HAN L F，SUN K，YANG Y， et al.Biochar’s stability and ef⁃
al saline-alkali soil by ball-milled red phosphorus-loaded biochar
fect on the content，composition and turnover of soil organic ［J/OL］.Chemical engineering journal，2022，431：133904［2023-
carbon［J/OL］. Geoderma，2020，364：114184［2023-02-06］.
02-06］.http：//doi.org/10.1016/j.cej.2021.133904.
http：//doi.org/10.1016/j.geoderma.2020.114184.
［40］郭大勇，商东耀，王旭刚，等 .改性生物炭对玉米生长发育、养
［30］ JOSEPH S，ANAWAR H M，STORER P，et al.Effects of en⁃
分吸收和土壤理化性状的影响［J］. 河南农业科学，2017，46
riched biochars containing magnetic iron nanoparticles on my⁃
（2）：22-27.GUO D Y，SHANG D Y，WANG X G，et al.Ef⁃
corrhizal colonisation，plant growth，nutrient uptake and soil
fects of modified biochar on growth，nutrients uptake of maize
quality improvement［J］.Pedosphere，2015，25（5）：749-760.
and soil physicochemical properties［J］.Journal of Henan agri⁃
［31］ WANG Z J，PAN X，KUANG S P，et al. Amelioration of
cultural sciences，2017，46（2）：22-27（in Chinese with English
coastal salt-affected soils with biochar，acid modified biochar
abstract）.
and wood vinegar：enhanced nutrient availability and bacterial
［41］ CHANG R H，SOHI S P，JING F Q，et al. A comparative
community modulation［J/OL］. International journal of envi⁃
study on biochar properties and Cd adsorption behavior under
ronmental research and public health，2022，19（12）：7282
effects of ageing processes of leaching，acidification and oxida⁃
［2023-02-06］.http：//doi.org/10.3390/ijerph19127282.
tion［J/OL］. Environmental pollution，2019，254（2）：113123
［32］ EDEH I G，MASEK O，BUSS W. A meta-analysis on bio⁃
［2023-02-06］.http：//doi.org/10.1016/j.envpol.2019.113123.
char's effects on soil water properties - new insights and future
［42］ WU L P，WEI C B，ZHANG S R，et al.MgO-modified bio⁃
research challenges［J/OL］.Science of the total environment，
char increases phosphate retention and rice yields in saline-al⁃
2020，714：136857［2023-02-06］. http：//doi. org/10.1016/j.
kaline soil［J］. Journal of cleaner production，2019，235：
scitotenv.2020.136857.
901-909.
［33］ DUAN M L，LIU G H，ZHOU B B，et al.Effects of modified
biochar on water and salt distribution and water-stable macro- ［43］ CHEN T T，LIU C，ZHANG F，et al.Acid-modified biochar
increases grain yield and reduces reactive gaseous N losses and
aggregates in saline-alkaline soil［J］.Journal of soils and sedi⁃
N-related global warming potential in alternate wetting and
ments，2021，21（6）：2192-2202.
［34］张伟明，修立群，吴迪，等 . 生物炭的结构及其理化特性研究 drying paddy production system［J/OL］.Journal of cleaner pro⁃
回顾与展望［J］.作物学报，2021，47（1）：1-18.ZHANG M W， duction，2022，377：134451［2023-02-06］. http：//doi. org/
10.1016/j.jclepro.2022.134451.
XIU L Q，WU D，et al.Review of biochar structure and physi⁃
［44］ ZHANG M Y，RIAZ M，XIA H，et al.Four-year biochar study：
cochemical properties［J］. Acta agronomica sinica，2021，47
（1）：1-18（in Chinese with English abstract）. Positive response of acidic soil microenvironment and citrus
［35］林庆毅，姜存仓，张梦阳 .生物炭老化后理化性质及微观结构 growth to biochar under potassium deficiency conditions［J/OL］.
The science of the total environment，2022，813：152515［2023-
的表征［J］. 环境化学，2017，36（10）：2107-2114.LIN Q Y，JI⁃
ANG C C，ZHANG M Y.Characterization of the physical and 02-06］.http：//doi.org/10.1016/j.scitotenv.2021.152515.
chemical structures of biochar under simulated aging condition ［45］ XIA H，RIAZ M，MING C，et al.Assessing the difference of
［J］. Environmental chemistry，2017，36（10）：2017-2114（in biochar and aged biochar to improve soil fertility and cabbage
Chinese with English abstract）. （Brassica oleracea var. capitata） productivity［J］. Journal of
［36］ RAHIMZADEH S，GHASSEMI-GOLEZANI K. Biochar- soils and sediments，2022，23：606-618.
based nutritional nanocomposites altered nutrient uptake and ［46］ MAO X X，YANG Y，GUAN P B，et al.Remediation of or⁃
+
vacuolar H -pump activities of dill under salinity［J］. Journal ganic amendments on soil salinization：focusing on the relation⁃

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