SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4286686341> ?p ?o ?g. }

Showing items 1 to 100 of ±164 with 100 items per page.

W4286686341 endingPage "3816" @default.
W4286686341 startingPage "3801" @default.
W4286686341 abstract "Abstract The dry soil layer (DSL), as a typical indicator for degradation in soil water supply capacity and soil drought, could provide important information for land use and reconstruction in semiarid and arid areas. However, the traditional index of DSL assessment neglected the water absorption characteristics and drought resistance of different crops and lacked uniformity and comparability. These may misjudge the occurrence and severity of the DSL and bring uncertainty to land development and vegetation selection. In this study, the DSL severity of the main production zone of apples in the Chinese Loess Plateau was reassessed using new plant physiological indices covering the next 60 years (2020–2080) under four general circulation models. Physiological indices were established based on the response of leaf net photosynthetic ( T PN ) and transpiration rate ( T TR ) to soil available water which is the difference between soil moisture and permanent wilting point ( n = 113). The environment policy integrated climate (EPIC) model was used to predict future soil water dynamics and drought yield loss (YL). The results showed that T PN and T TR significantly slowed down the accumulation of DSL severity quantitative index (QI, based on thickness moisture and formation depth of DSL) and enhanced the correlation between DSL and YL, which correlation coefficient increased from 0.51 to 0.73 and 0.64. Forming serious DSL (QI >0.5) has slowed from 2040 to 2055 years. Moreover, future climate change accumulatively reduced 9.95%–14.18% of the YL. These results indicated that the traditional method overestimated the environmental contradiction between economic benefits and eco‐hydrology of apple orchards, which could send unreliable messages to policymakers to restrict further development of apple industries. This study emphasized that evaluating DSL based on plant physiological threshold reflected better soil desiccation level and YL, which will contribute to further study of the sustainable development of fragile ecosystems." @default.
W4286686341 created "2022-07-23" @default.
W4286686341 creator A5005215310 @default.
W4286686341 creator A5005798114 @default.
W4286686341 creator A5028493087 @default.
W4286686341 creator A5052860875 @default.
W4286686341 creator A5078760383 @default.
W4286686341 creator A5084911309 @default.
W4286686341 date "2022-09-08" @default.
W4286686341 modified "2023-10-13" @default.
W4286686341 title "New physiological thresholds improve soil desiccation prediction rationality in apple orchards converted from farmland on the Chinese Loess Plateau" @default.
W4286686341 cites W1895164668 @default.
W4286686341 cites W1944710617 @default.
W4286686341 cites W1964703227 @default.
W4286686341 cites W1967222091 @default.
W4286686341 cites W1967852364 @default.
W4286686341 cites W1979723077 @default.
W4286686341 cites W1980965960 @default.
W4286686341 cites W1987903495 @default.
W4286686341 cites W1996878377 @default.
W4286686341 cites W1999430564 @default.
W4286686341 cites W2019022785 @default.
W4286686341 cites W2025582805 @default.
W4286686341 cites W2025852300 @default.
W4286686341 cites W2031949321 @default.
W4286686341 cites W2034801478 @default.
W4286686341 cites W2039029454 @default.
W4286686341 cites W2047023360 @default.
W4286686341 cites W2048382588 @default.
W4286686341 cites W2054261942 @default.
W4286686341 cites W2058998445 @default.
W4286686341 cites W2060615563 @default.
W4286686341 cites W2061090604 @default.
W4286686341 cites W2069211300 @default.
W4286686341 cites W2084150246 @default.
W4286686341 cites W2087781306 @default.
W4286686341 cites W2094323183 @default.
W4286686341 cites W2100021472 @default.
W4286686341 cites W2103352343 @default.
W4286686341 cites W2110854629 @default.
W4286686341 cites W2114248304 @default.
W4286686341 cites W2146633415 @default.
W4286686341 cites W2152735068 @default.
W4286686341 cites W2158883105 @default.
W4286686341 cites W2162604832 @default.
W4286686341 cites W2167997295 @default.
W4286686341 cites W2168108537 @default.
W4286686341 cites W2168189472 @default.
W4286686341 cites W2171486641 @default.
W4286686341 cites W2342400112 @default.
W4286686341 cites W2347466222 @default.
W4286686341 cites W2394896537 @default.
W4286686341 cites W2397476988 @default.
W4286686341 cites W2409733279 @default.
W4286686341 cites W2466163909 @default.
W4286686341 cites W2548652088 @default.
W4286686341 cites W2587713640 @default.
W4286686341 cites W2735667196 @default.
W4286686341 cites W2746720458 @default.
W4286686341 cites W2754283167 @default.
W4286686341 cites W2758931096 @default.
W4286686341 cites W2784093514 @default.
W4286686341 cites W2792833813 @default.
W4286686341 cites W2803388929 @default.
W4286686341 cites W2883368945 @default.
W4286686341 cites W2904017456 @default.
W4286686341 cites W2905573376 @default.
W4286686341 cites W2914588923 @default.
W4286686341 cites W2946827764 @default.
W4286686341 cites W2969267089 @default.
W4286686341 cites W2990782002 @default.
W4286686341 cites W2998126972 @default.
W4286686341 cites W2998321046 @default.
W4286686341 cites W3000250035 @default.
W4286686341 cites W3011716970 @default.
W4286686341 cites W3012445610 @default.
W4286686341 cites W3023202598 @default.
W4286686341 cites W3049294691 @default.
W4286686341 cites W3082260175 @default.
W4286686341 cites W3088851022 @default.
W4286686341 cites W3092410383 @default.
W4286686341 cites W3094809804 @default.
W4286686341 cites W3129724583 @default.
W4286686341 cites W3131815913 @default.
W4286686341 cites W3149402810 @default.
W4286686341 cites W4237146117 @default.
W4286686341 cites W4250564453 @default.
W4286686341 cites W638154514 @default.
W4286686341 doi "https://doi.org/10.1002/ldr.4424" @default.
W4286686341 hasPublicationYear "2022" @default.
W4286686341 type Work @default.
W4286686341 citedByCount "0" @default.
W4286686341 crossrefType "journal-article" @default.
W4286686341 hasAuthorship W4286686341A5005215310 @default.
W4286686341 hasAuthorship W4286686341A5005798114 @default.
W4286686341 hasAuthorship W4286686341A5028493087 @default.
W4286686341 hasAuthorship W4286686341A5052860875 @default.
W4286686341 hasAuthorship W4286686341A5078760383 @default.