Soil phosphorus loss increases under drought-flood abrupt alternation in summer maize planting area

“…The spatial distribution would change in the future compared with that in history, especially the highest center of yield loss, shifting from southwest to the central and northern parts. Our previous study showed that the counts of DFAA events in moderate and severe level increased in 2020-2050(Bi et al, 2022, which was the main reason to the increasing yield loss as the yield reduction increased with higher DFAA level. The high-value center of yield loss shifted from the southwest (in history scenarios) to the center (in future scenario), which was basically consistent with the frequency of DFAA in severe level and moderate level.…”

“…Pipes were buried for soil water content measurement (AIM-WiFi soil multi-parameters monitoring system). Experimental plots design is shown in Supplementary Figure S2 (Bi et al, 2022). The soil in the plots was undisturbed field soil of dark hydromorphic clay loam, which is the soil type with the largest area in the study area, accounting for 52.2% (Supplementary Figure S1).…”

“…As described in our previous studies (Bi et al, 2022), we proposed determination method of DFAA on considering both the meteorological and agricultural indicators at daily scale (Supplementary Section S1). Two types of treatments were arranged for this experiment: i) control treatment (CS, under the natural climatic conditions); and ii) four DFAA treatments, i.e., light drought-light flood (LL), light drought-moderate flood (LM), moderate drought-light flood (ML), and moderate droughtmoderate flood (MM).…”

“…In total two types of scenarios were set, i.e., history scenarios, and future scenarios. The description for these scenarios were reported in our previous study (Bi et al, 2022), also can be found in Supplementary Section S2. The analysis was only based on the climatic change, not considering the distribution of human activities (additional fertilizer addition, control measures to DFAA, etc.…”

“…As we concluded, the potential causes for biomass reduction and yield loss are soil water fluctuations and nutrient transformation. Our previous studies yielded that phosphorus (P) absorbed by summer maize was significantly lower under DFAA (Bi et al, 2020b;Bi et al, 2022). This study analyzed the correlations among different indices, i.e., P absorbed by summer maize, biomass, yield, grain quality (Figure 7).…”

Response of summer maize growth to drought-flood abrupt alternation

“…The spatial distribution would change in the future compared with that in history, especially the highest center of yield loss, shifting from southwest to the central and northern parts. Our previous study showed that the counts of DFAA events in moderate and severe level increased in 2020-2050(Bi et al, 2022, which was the main reason to the increasing yield loss as the yield reduction increased with higher DFAA level. The high-value center of yield loss shifted from the southwest (in history scenarios) to the center (in future scenario), which was basically consistent with the frequency of DFAA in severe level and moderate level.…”

“…Pipes were buried for soil water content measurement (AIM-WiFi soil multi-parameters monitoring system). Experimental plots design is shown in Supplementary Figure S2 (Bi et al, 2022). The soil in the plots was undisturbed field soil of dark hydromorphic clay loam, which is the soil type with the largest area in the study area, accounting for 52.2% (Supplementary Figure S1).…”

“…As described in our previous studies (Bi et al, 2022), we proposed determination method of DFAA on considering both the meteorological and agricultural indicators at daily scale (Supplementary Section S1). Two types of treatments were arranged for this experiment: i) control treatment (CS, under the natural climatic conditions); and ii) four DFAA treatments, i.e., light drought-light flood (LL), light drought-moderate flood (LM), moderate drought-light flood (ML), and moderate droughtmoderate flood (MM).…”

“…In total two types of scenarios were set, i.e., history scenarios, and future scenarios. The description for these scenarios were reported in our previous study (Bi et al, 2022), also can be found in Supplementary Section S2. The analysis was only based on the climatic change, not considering the distribution of human activities (additional fertilizer addition, control measures to DFAA, etc.…”

“…As we concluded, the potential causes for biomass reduction and yield loss are soil water fluctuations and nutrient transformation. Our previous studies yielded that phosphorus (P) absorbed by summer maize was significantly lower under DFAA (Bi et al, 2020b;Bi et al, 2022). This study analyzed the correlations among different indices, i.e., P absorbed by summer maize, biomass, yield, grain quality (Figure 7).…”

Response of summer maize growth to drought-flood abrupt alternation

Effects of Mitigation Scenarios on Water Quality Under Drought-Flood Abrupt Alternation

Remote sensing assessment of multi-year drought vulnerability of agriculture in Kangavar, Kermanshah Province, Western Iran