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20 May 2022, Volume 43 Issue 05

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Spatial-Temporal Variation and Zoning Review of Soil Wind Erosion in the Three Provinces of Northeast China

YANG Wan-rong, LIU Zhi-juan, SU Zheng-e, GAO Wei-da, REN Tu-sheng, YANG Xiao-guang

2022, 43(05):  327-339.  doi:10.3969/j.issn.1000-6362.2022.05.001

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Based on the meteorological data from 1981 to 2017 in the three provinces of Northeast China, the temporal and spatial patterns of daily maximum wind speed at different levels during three study periods (the whole year, the fallow period of the year and one month before sowing date) were analyzed. Then using the starting wind speed index considering the influence of precipitation, the temporal and spatial patterns of the days of soil wind erosion during three study periods in different regions were analyzed. And suggestions on soil conservation tillage measures in different regions were put forward. It will provide scientific basis for the promotion of soil conservation tillage measures in various regions. The results showed that the regional annual average frequencies of wind scaled from calm to gentle breeze, from moderate breeze to strong breeze and moderate gale and above were 48.5%, 50.4% and 1.1%, respectively. During the past 37 years, the frequencies of wind scale from calm to gentle breeze during these three study periods showed increasing trends, while the frequencies of wind scale in moderate breeze and above showed the decreasing trends. The regional annual proportion of the days of wind erosion was 35.0%, but this value is higher during one month before sowing period (57.0%). In most areas, the days of wind erosion in each period showed decreasing trends. In Liaohe plain and Sanjiang plain, the frequencies of wind erosion during fallow period and one month before sowing were serious. Therefore, more attention should be paid to the impacts of wind erosion on soil. In Songnen plain, the frequency of soil wind erosion is lower during the fallow period, but serious during one month before sowing. Therefore, no-tillage technology is advocated in this area to reduce soil wind erosion.

Spatiotemporal Variation and Analysis Sensitivity of Reference Evapotranspiration during Crop Growing Season in the Tarim Basin

WANG Da-gang, YU Yang, MALIK Ireneusz, WISTUBA Malgorzata, ZHANG Min,

2022, 43(05):  340-352.  doi:10.3969/j.issn.1000-6362.2022.05.002

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This study was based on the daily observation data of 19 meteorological stations in the Tarim basin during the crop growing season from 2000 to 2019. The FAO-56PM formula was used to calculate the daily ET0 of each station. The sensitivity coefficient, ArcGIS inverse distance weight interpolation, climate trend rate and Mann-Kendall nonparametric test were used to analyze the spatiotemporal variation and the sensitivity of ET0 to key meteorological factors. The results indicate that: (1) during the past 20 years, the daily mean values of ET0 in the crop growing season are generally lower in the north and higher in the south of the Tarim basin. The daily mean values of ET0 in the crop growing season were 5.84mm⋅d⁻¹ in June, 5.73mm⋅d⁻¹ in July, 5.29mm⋅d⁻¹ in May, 4.95mm⋅d⁻¹ in August, 4.23mm⋅d⁻¹ in April, 3.65mm⋅d⁻¹ in September and 2.17 mm⋅d⁻¹ in October, respectively. The climate tendency rates of the daily mean value of ET0 were −0.09, 0.24, 0.11, −0.07, 0.16, 0.07 and 0.08mm⋅10y⁻¹, respectively. These rates were dominated by negative dip rates in the middle and west of the basin, and positive dip rates in the east of the basin; (2) During the crop growing season, relative humidity increased and wind speed at 2m decreased by each month. Sunshine duration firstly increased and then decreased. Minimum temperature and maximum temperature showed an inverted U-shaped distribution, and both reached their maximum values in July. The change of relative humidity was dominated by negative trend rates. The change of wind speed at 2m and minimum temperature were dominated by positive trend rates, while the trend rate of sunshine duration and maximum temperature had no obvious trend; and (3) During the crop growing season, the sensitivity of ET0 to the key meteorological factors in the Tarim basin were: maximum temperature > relative humidity > sunshine duration > wind speed at 2m > minimum temperature. The sensitivity of ET0 to the minimum temperature was negligible, while the sensitivity to other meteorological factors were high. ET0 is most sensitive in July to the minimum and maximum temperature, while most sensitive in October to relative humidity, in April to wind speed at 2m and in August to sunshine duration, respectively. The spatial distribution of absolute values of ET0 sensitivity coefficient to relative humidity decreased from north to south. The sensitivity coefficient to wind speed at 2m and maximum temperature were the highest in the center of the Taklimakan Desert. There is no obvious trend of sunshine duration. The minimum temperature decreased from west to east of the basin.

Analysis of Ammonia Mitigation Potential for Exhaust Air from Mechanical Ventilation Livestock Farms in Different Regions

JIANG Xu-dong, SONG Man, WANG Hong, DONG Hong-min, WANG Yue, ZHU Zhi-ping

2022, 43(05):  353-361.  doi:10.3969/j.issn.1000-6362.2022.05.003

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Ammonia is the only alkaline gas in the atmosphere. Reducing ammonia emissions plays an important role in controlling atmospheric pollution. Livestock and poultry breeding industry is an important source of ammonia emissions. Scientific assessment of ammonia emissions and reduction potential in different links is of great significance. In this paper, the ammonia emission factors of different livestock and poultry breeding houses in China and abroad, the main emission reduction technologies and efficiency were summarized. Combined with the number of mechanical ventilation farms and the animal population of major livestock and poultry obtained from the second national pollution source census, the ammonia emission reduction potential of exhaust air from mechanical ventilation livestock farms in China was analyzed. The results show that the reduction potential of ammonia emission from mechanically ventilated livestock houses in China is 265.6 thousand tons; pigs, laying hens and broilers were the three main sources of livestock and poultry, and their emission reduction potential were 101.8 thousand tons, 77.3 thousand tons and 67.5 thousand tons, respectively. The emission reduction potential of the three livestock and poultry types accounted for 92.8 %. Regionally, the main implementing regions are East China, South Central and North China, with ammonia emission reduction potential accounting for 35.1%, 26.9% and 14.9%, respectively. It is proposed to carry out the construction of ammonia emission reduction facilities in mechanical ventilation barn of pig, laying hens and broiler, which can provide guarantee for the national ammonia emission reduction and the improvement of atmospheric environmental quality.

Review on Drought and Waterlogging Disasters for Apple in China

DAI An-ran, HUO Zhi-guo, JIANG Hui-fei

2022, 43(05):  362-379.  doi:10.3969/j.issn.1000-6362.2022.05.004

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The cultivation of apples plays an important role in China's fruit production. Climate change has brought about more frequent and severe drought and waterlogging disasters, which have negatively impacted apple yield quantity and quality. Through the summary of previous research studies done on the impact of drought and waterlogging disasters and its effect on apple production, methods for disaster prevention and mitigation can be provided to reduce the impact of these disasters to the industry. In this paper, the methods of classification and systematic analysis combined with studying actual disaster cases were used to review the latest research into the effects of droughts and waterlogging disasters on apple production in China and identify the next steps for future research and development into this subject. The intensity and impacts of droughts and waterlogging disasters on apple production are determined by weather, regional climate, topography, soil composition, and several other factors. Adopting the morphological indicators to study these disasters, most existing research into this area only focuses on meteorological factors and rarely consider agrometeorological factors such as soil composition, current crop conditions, and more. The distribution of apple drought disasters in China decreases from north to south. The prevention measures of apple drought and waterlogging included irrigation, strengthening orchard soil management, implementing the integration of soil and fertilizer, etc. More of the current research done into this subject takes place in the Northern parts of China and often lack the necessary information to be put into use in disaster monitoring and early warning applications. In the future, research into apple droughts and waterlogging disasters should focus on increasing in orchard observation data collection, constructing a disaster risk monitoring and early warning model, and implementing the model into apple growing.

Drought Risk Assessment of Table Grapes in the Bohai Rim Region Based on Crop Water Deficit Index

XIAO Nan-shu, LIU Bu-chun, YIN Hong, LIU Yuan, QIU Mei-juan, ZHANG Yue-ying, WANG Ke-yi

2022, 43(05):  380-392.  doi:10.3969/j.issn.1000-6362.2022.05.005

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The influence of water on the growth and development of grapes cannot be ignored. In order to provide a theoretical reference for drought risk management and loss reduction and quality assurance of table grapes, the Bohai Rim region was taken as a study area. The crop water deficit index, which was calculated using daily meteorological data from 60 meteorological stations in the region from 1981 to 2014, was taken as an index to explore the drought of table grapes. By the crop water deficit index of the table grapes in each growth period in the region, the drought frequency and station ratio of the table grapes in each growth period were obtained. Then we evaluated the risk of drought based on the spatial and temporal distribution of table grapes in the region. The results showed that the matching degree was low in the time dimension between the water requirement of table grapes in the Bohai Rim region and precipitation, and table grapes in the region had a certain risk of drought in each growth stage. The new shoot growth period and fruit ripe period of table grapes were high-risk periods of drought in the region, when droughts were more frequently and more severely to occur. The central and southern part of Hebei province were high-risk area for drought, and where the risk of severe droughts is higher for table grapes. Table grapes in the Bohai Rim region had the most widely range of drought during the ripening period.

Effect Mechanism of High Temperature and High Humidity Stress on Yield Formation of Cucumber

YANG Li, YANG Zai-qiang, LU Si-yu, ZHANG Yuan-da, ZHENG Han

2022, 43(05):  392-407.  doi:10.3969/j.issn.1000-6362.2022.05.006

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To investigate the effects of high temperature and high humidity compound disasters on leaf photosynthesis and flower sex differentiation of cucumber plants, the cucumber variety "Jinyou101" was used as the test materials. The three factors orthogonal test of air temperature, air relative humidity and treatment days was conducted in the artificial climate chamber of Nanjing University of Information Science and Technology from May to September 2020. Four levels of day/night temperature were set to 32℃/22℃, 35℃/25℃, 38℃/28℃ and 41℃/31℃. The air relative humidity was set at three levels: 50%, 70% and 90%（±5 percent point）, and the durations of treatment time were designed for 3, 6, 9 and 12 days. The treatments of day temperature 28℃/ night temperature 18℃, air relative humidity 50%±5pp were used as control (CK). The photosynthetic parameters, chlorophyll content and endogenous hormone content of terminal bud were measured systematically, and the floral differentiation of each node and final yield were observed. The results showed that: （1）the total amount of chlorophyll in cucumber leaves decreased with the increase of temperature and the extension of stress time. After 12 days of stress, chlorophyll a, chlorophyll b and carotenoid contents in cucumber leaves reached the lowest value, which decreased by 31.51%, 22.62% and 37.10% compared with CK, respectively. （2）The Pmax (maximum net photosynthetic rate), LSP (light saturation point) and AQE (apparent quantum efficiency) values of cucumber leaves decreased significantly with the deepening of high temperature and humidity stress. The LSP, AQE and Pmax values of cucumber leaves at 41℃ were the lowest, which were 48.78%, 40.00% and 43.04% lower than those of CK, respectively. In the range of 32−41℃, the Pmax values of cucumber leaves under 70% air relative humidity were higher than those under other humidity treatments, and the differences were small compared with CK. （3）In the process of flower bud differentiation, the contents of ZT (anti-zeaxin), ABA (abscisic acid) and GA3 (gibberellin) in cucumber terminal buds increased firstly and then decreased, while the contents of IAA decreased gradually with the growth of cucumber plant. The contents of ZT, IAA and GA3 in cucumber terminal buds decreased gradually with the increase of temperature and days of stress, while the changes of ABA content were on the contrary. At the end of 41℃, the contents of ZT, IAA and GA3 decreased by 47.37%, 26.38% and 83.65%, respectively, compared with CK, while the ABA content increased by 27.27% compared with CK. After 12 days of stress, the contents of ZT, IAA and GA3 reached the lowest values in the same period (0.07µg·g⁻¹, 1.11µg·g⁻¹, 0.75µg·g⁻¹), while the ABA content reached the highest values in the same period (1.89µg·g⁻¹).（4）High temperature and high humidity stress increased the node position of each female flower, but decreased the node rate of female flower and the number of flower buds. When treated with 70% air relative humidity, the nodes of female flowers were decreased, and the proportion of female flower nodes and the number of flower buds were increased. （5）High temperature and high humidity stress significantly reduced cucumber yield, and the yield of cucumber treated at 41℃ was 38.50% lower than that of CK. The study found that high temperature inhibited photosynthesis in cucumber leaves, disrupted the endogenous hormone balance in terminal buds, and reduced the number of female flower differentiation, resulting in lower final yield.

Retrieving of the Forest Stock Volume Based on the Red Edge Bands of GF-6 Remote Sensing Satellite: A Case Study of Coniferous Forest in Xining City

REN Feng, WANG Qi, YANG Jia, REN Qing-fu

2022, 43(05):  408-420.  doi:10.3969/j.issn.1000-6362.2022.05.007

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The red band and the near-infrared band are often used as sensitive bands for remote sensing retrieval of forest stock volume, however the red edge band between the two is often ignored. To investigate whether the red edge band is sensitive to the accuracy of forest stock volume retrieval, the wide imagery data of GF-6 remote sensing satellite (GF-6 WFV), the DEM, the second survey data of forest resources in 2014 of Xining city were used, and the multiple linear regression model (MLR), the random forest regression model (RF) were employed. The predicting variables were collected from spectral characteristic, vegetation index, topographic factor and image texture. These variables were divided into two groups, the one is no red edge band (No Red-Edge), and the other is red edge band added (Red-Edge Added). The results show that: (1) the selected principal components which were derived from the texture variables of two groups by PCA method mainly explained the texture features of red, near-infrared and red-edge 1 band of the image. (2) Regarding the spectral variables, the surface reflectance of red and near-infrared band were selected because of the high correlation with the forest stock volume in No Red-Edge group, and in Red-Edge Added group, the surface reflectance of the red-edge 1 band was selected. Regarding the vegetation index variables, the Normalized Difference Vegetation Index (NDVI) and Soil Adjusted Vegetation Index (SAVI) were selected in No Red-Edge group, and in Red-Edge Added group, the MERIS Terrestrial Chlorophyll Index (MTCI) was selected. (3) In Red-Edge Added group, the R2 of the RF model is better than that of the MLR model, 0.6719 and 0.5487, respectively, and the root mean square error (RMSE) of the RF model is smaller than that of the MLR model, 26.3m³·ha⁻¹ and 20.8m³·ha⁻¹, respectively. (4) After eliminating the effect of the model on the accuracy of forest stock volume retrieval, the R2 between the retrieval and the observed values in Red-Edge Added group increased by 11.6%, and the RMSE in Red-Edge Added group decreased by 9.1% compared to No Red-Edge group. Our results suggested that the red-edge band significantly improved the accuracy of the coniferous forest stock volume retrieval in Xining city. This study has high potential value in the remote sensing retrieval of forest stock volume.