期刊: GLOBAL CHANGE BIOLOGY, 2022; 28 (4)
The alpine meadow ecosystem on the Qinghai-Tibetan Plateau (QTP) is very sensitive to warming and plays a key role in regulating global carbon (C) cyc......
期刊: GLOBAL CHANGE BIOLOGY, 2022; 28 (11)
Artificial light at night (ALAN) has been and still is rapidly spreading and has become an important component of global change. Although numerous stu......
期刊: GLOBAL CHANGE BIOLOGY, 2022; 28 (17)
Hemiboreal and boreal forests growing at the southern margin of the permafrost distribution are vulnerable to climate warming. However, how climate wa......
期刊: GLOBAL CHANGE BIOLOGY, 2022; 28 (22)
Scrub typhus is a climate-sensitive and life-threatening vector-borne disease that poses a growing public health threat. Although the climate-epidemic......
期刊: GLOBAL CHANGE BIOLOGY, 2022; 28 (24)
Carbon (C):nitrogen (N):phosphorus (P) stoichiometry in plants, soils, and microbial biomass influences productivity and nutrient cycling in terrestri......
期刊: GLOBAL CHANGE BIOLOGY, 2022; 28 (4)
Soil priming is a microbial-driven process, which determines key soil-climate feedbacks in response to fresh carbon inputs. Despite its importance, th......
期刊: GLOBAL CHANGE BIOLOGY, 2022; 28 (22)
Paddies contain 78% higher organic carbon (C) stocks than adjacent upland soils, and iron (Fe) plaque formation on rice roots is one of the mechanisms......
期刊: GLOBAL CHANGE BIOLOGY, 2022; 28 (10)
Pronounced nongrowing season warming and changes in soil freeze-thaw (F-T) cycles can dramatically alter net methane (CH4) exchange rates between soil......
期刊: GLOBAL CHANGE BIOLOGY, 2022; 28 (11)
Non-continuous flooding is an effective practice for reducing greenhouse gas (GHG) emissions and irrigation water use (IRR) in rice fields. However, a......
期刊: GLOBAL CHANGE BIOLOGY, 2022; 28 (21)
Soil microbes make up a significant portion of the genetic diversity and play a critical role in belowground carbon (C) cycling in terrestrial ecosyst......
期刊: GLOBAL CHANGE BIOLOGY, 2022; 28 (18)
Grazing and global change (e.g., warming, nitrogen deposition, and altered precipitation) both contribute to biodiversity loss and alter ecosystem str......
期刊: GLOBAL CHANGE BIOLOGY, 2022; 28 (3)
Revealing the ecological roles of core microbiota in the maintenance of the functional stability of soil microbiomes is crucial for sustainable ecosys......
期刊: GLOBAL CHANGE BIOLOGY, 2022; 28 (9)
Ocean acidification (OA) is postulated to affect the physiology, behavior, and life-history of marine species, but potential for acclimation or adapta......
期刊: GLOBAL CHANGE BIOLOGY, 2022; 28 (12)
Ecological succession after disturbance plays a vital role in influencing ecosystem structure and functioning. However, how global change factors regu......
期刊: GLOBAL CHANGE BIOLOGY, 2022; 28 (14)
Theory and experiments support that plant invasions largely impact aboveground biodiversity and function. Yet, much less is known on the influence of ......
