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1. [Effects of Mulching and Slow-release Fertilizer Application Reduction on Soil Microbial Community Structure in Rapeseed Field Under Two Different Rainfall Conditions]

Author

Jun, Feng, Chao, Shi, Athar Hussain, Hafiz, Yong-Bo, Liu, Tian-Peng, Liu, Yong-Hong, Li, Jun-Feng, Liu, and Long-Chang, Wang

Subjects
Fatty Acids, Monounsaturated, Soil, Bacteria, Microbiota, Brassica napus, Brassica rapa, Fungi, Agriculture, Fertilizers, Soil Microbiology
Abstract

In order to investigate the effects of furrow and ridge rainwater harvesting, straw mulching, and reduced and slow-release fertilizer on soil microbial community structure of rapeseed, a two-year field study was conducted in rainy (2016-2017) and drought (2017-2018) seasons, which included three cultivation patterns:1 conventional flat planting, 2 straw mulching, and 3 ridge-furrow rainfall harvesting system and four fertilization patterns:1 conventional fertilization (100% of the amount), 2 reduced slow-release fertilizer Ⅰ (80% of the amount), 3 reduced slow-release fertilizer Ⅱ (60% of the amount), and 4 no fertilizer. The results indicated that it was rainy in 2016-2017, with seasonal drought during the nutritional growth stage in 2017-2018. The two technologies (straw mulching+80% slow-release fertilizer, J80 and ridge-furrow rainfall harvesting system+80% slow-release fertilizer, M80) were beneficial to boost the soil microbial activity. J80 and M80 increased the microbial biomass carbon by 9.94% and 10.32% and microbial biomass nitrogen by 2.38% and 1.19%, respectively, compared with that of the local cultivation pattern under two different climate conditions. The total amount of microbial phospholipid fatty acid (PLFA) decreased by 30.75% in the rainy year compared with that in the drought year, and mulching technology could effectively increase the total amount of soil PLFA. The PLFA contents of soil bacteria and fungi in the rainy year were 33.67% and 53.21%, respectively, lower than those in the drought year. However, the PLFA content of actinomycetes increased by 13.04%. Microbial communities were sensitive to abnormal precipitation. The bacteria/fungi ratio increased in rainy weather. The drought climate heighted the ratio of straight chain saturated fatty acid/straight chain monounsaturated fatty acid and straight chain monounsaturated fatty acid/cyclopropane acid. In conclusion, adopting the optimal cultivation technologies can stabilize the soil microenvironment under abnormal precipitation, relieve water and nutrient stress, and provide an effective means for rapeseed sustainable development.

Published
2022

2. [Responses of soil moisture and photosynthetic characteristics to mulching materials and ridge-to-furrow ratios in rapeseed fields in southwest dryland of China]

Author

Yi, Xing, Kang-Ping, Zhang, Zhi-Yuan, Wang, Xiao-Duan, Zhang, Hai-Yan, Wu, Tai-Lin, Ran, Xin-Hua, Xiang, and Long-Chang, Wang

Subjects
China, Soil, Brassica napus, Water, Agriculture, Photosynthesis
Abstract

In order to deal with the frequent seasonal drought and improve water use efficiency and crop photosynthetic efficiency in drylands of southwest China, a field experiment was conducted to investigate the effects of different mulching materials (common white film, common black film, biodegradable film and no film) and ridge-to-furrow ratios (40 cm:40 cm and 40 cm:80 cm) on soil water storage, as well as photosynthetic characteristics, fluorescence parameters and chlorophyll relative content (SPAD) of rapeseed, with the flat planting as the control. The results showed that the average soil water storage under different mulching materials followed the order: ridge with common black film (BR) ≈ ridge with common white film (WR) ≈ ridge with biodegradable film (BDR) > ridge with no film (NR) > flat planting (FP). Meanwhile, ridge-to-furrow ratios did not affect soil water storage. The net photosynthetic rate, stomatal conductance and fluorescence para-meters (为了应对西南地区频发的季节性干旱,提高旱作农田水分利用效率和作物光能利用效率,设置大田试验,研究不同覆盖材料(普通白膜、普通黑膜、生物降解膜和不覆膜)和不同垄沟比(40 cm∶40 cm和40 cm∶80 cm)对土壤贮水量和油菜光合特性、荧光参数、叶绿素相对含量(SPAD)的影响。结果表明: 油菜生育期不同覆盖材料下的土壤贮水量为:普通黑膜垄作(BR)≈普通白膜垄作(WR)≈生物降解膜垄作(BDR)>不覆膜垄作(NR)>平作(FP);在同一覆盖材料下,垄沟比对土壤贮水量无显著影响。与平作相比,垄沟集雨处理的净光合速率、气孔导度、最大荧光、可变荧光、PSⅡ最大光化学量子产量、PSⅡ潜在活性、光化学猝灭系数和非光化学猝灭系数均有所提高;与平作相比,WR、BR、BDR和NR处理的SPAD值分别提高6.1%、8.6%、8.5%和3.6%,瞬时水分利用效率分别提高18.3%、11.4%、16.3%和10.4%。相比于平作,BR、WR和BDR处理可显著增加油菜产量,NR处理增产不显著,普通黑膜垄作+垄沟比40 cm∶40 cm处理的经济效益最高。可见,垄沟集雨种植可以改善西南旱地油菜田土壤水分,增强油菜叶片光合能力,提高油菜产量,增加农民收入。.

Published
2020

3. [Effects of Chinese milk vetch intercropped with rape under straw mulching on soil aggregate and organic carbon character]

Author

Quan, Zhou, Long Chang, Wang, Yi, Xing, Shu Min, Ma, Xiao Duan, Zhang, Jiao, Chen, and Chao, Shi

Subjects
China, Soil, Brassica rapa, Agriculture, Astragalus Plant, Carbon
Abstract

There are severe soil erosion, shallow soil, reduction of soil organic matter, and poor soil and water conservation in purple soil areas in Southwest China, which become the main limiting factors for the sustainable development of agriculture. A series of buckets and field experiments in the field were employed to explore the soil aggregate and soil organic carbon in response to Chinese milk vetch intercropped with rape under straw mulching, aiming to improve soil aggregate structure and increase organic carbon content. Results showed that intercropped Chinese milk vetch increased soil micro-aggregate content in rape rhizosphere, and reduced soil aggregate mean mass diameter. The change of soil macro-aggregate in rape rhizosphere was mainly caused by the change of content of soil aggregate on 10-5 mm and 5-2 mm, while the soil micro-aggregate was mainly caused by soil aggregate on 0.25-0.053 mm. Intercropped Chinese milk vetch and straw mulching significantly increased soil organic carbon content after corn growing season, with increasing the content of soil organic carbon on 10-20 cm and 20-30 cm. Though intercropped Chinese milk vetch and straw mulching had less effect on soil total organic carbon in rape season, more and more significant effect on 0-10 cm, 10-20 cm, and 20-30 cm with rape growing, especially in stem elongation stage, flowering stage, and harvest stage. Our results showed that the characteristic of soil aggregate in rape rhizosphere could be changed by intercropped Chinese milk vetch, and that the content of soil organic carbon could be increased by Chinese milk vetch intercropped with rape under straw mul-ching.我国西南旱地紫色土区水土流失严重、土层浅薄、土壤有机质下降、保水保土能力差,已成为农业可持续发展的主要限制因素.通过引入冬季绿肥紫云英,研究秸秆覆盖条件下紫云英间作油菜的土壤团聚体及有机碳特征,为该地区改善农田土壤团聚体结构和提高有机碳含量提供可借鉴的途径.结果表明: 间作紫云英增加了油菜根际土壤微团聚体含量,促使其团聚体平均质量直径降低.油菜根际土壤大团聚体含量的变化主要是由10~5 mm和5~2 mm团聚体含量的变化引起,而微团聚体含量的变化主要是由0.25~0.053 mm团聚体含量的变化引起.间作紫云英和秸秆覆盖显著提高了后茬作物玉米季土壤有机碳含量,主要是因为影响了10~20 cm和20~30 cm土层总有机碳的含量.间作紫云英和秸秆覆盖虽然对油菜季总有机碳含量的增加不明显,但对0~10 cm、10~20 cm和20~30 cm土层总有机碳含量的影响却随着油菜生育期的进行逐渐增加,在蕾薹期、开花期和收获期表现出较大差异.可见,间作紫云英改变了油菜根际土壤团聚体特征,秸秆覆盖条件下紫云英间作油菜可提高农田土壤有机碳含量.

Published
2019

4. Chromium and Aluminum Phytotoxicity in Maize: Morpho-Physiological Responses and Metal Uptake

Author

Shakeel Ahmad Anjum, Imtyaz Hussain, Muqarrab Ali, Umair Ashraf, Mohsin Tanveer, Long chang Wang, and Imran Khan

Subjects
0106 biological sciences, chemistry.chemical_classification, biology, Glutathione peroxidase, Glutathione reductase, food and beverages, chemistry.chemical_element, 010501 environmental sciences, Ascorbic acid, 01 natural sciences, Pollution, chemistry.chemical_compound, Horticulture, Chromium, chemistry, Chlorophyll, Botany, biology.protein, Environmental Chemistry, Phytotoxicity, Hydrogen peroxide, 010606 plant biology & botany, 0105 earth and related environmental sciences, Water Science and Technology, Peroxidase
Abstract

The present study investigated the uptake, translocation, and accumulation of chromium (Cr 6+ ) and aluminum (Al 3+ ) in maize and their induced variations in morpho-physiological and biochemical attributes as well as growth behavior and yield formation. Plants were grown in pots supplied with heavy metals, alone and in combination (chromium (Cr), aluminum (Al) and chromium + aluminum (Cr + Al)) while pots without adding Cr or Al were regarded as control. Metal stress considerably reduced growth and yield related attributes as well as photosynthetic pigments of maize. However, production of hydrogen peroxide (H 2 O 2 ), thiobarbituric acid and activities of ascorbate peroxidase, glutathione reductase, glutathione peroxidase, and ascorbic acid were substantially increased under Cr and Al stress. A significant increase in soluble sugars and total phenolic contents were recorded in plants exposed to Cr and Al stress. Furthermore, all physiological attributes were increased with plant age except chlorophyll. Interestingly, Cr alone was proved more toxic to maize than Al alone. Cr and Al accumulation varied significantly (p ≤ 0.05) among different plant organs as roots > stem > leaves > corn ear > grains, whereas degrees of translocations were higher from stem to other plant parts than roots to stem. Accumulation of Cr and Al in either above- or below-ground plant parts are negatively correlated with grains and biological yield. The overall trend of metal stress on plant growth and yield were perceived as: Cr + Al > Cr > Al > control. Furthermore, synergistic effects of Cr + Al were more prominent than the individual effects of Cr and Al alone.

Published
2016

5. [Characteristics of Soil Respiration and Soil Organic Carbon in Fava Bean Farmland Under Ridge Tillage and Straw Mulching in Southwest China]

Author

Ying, Xiong, Long-Chang, Wang, Juan, Du, Lin-Lu, Zhao, Quan, Zhou, and Sai, Zhang

Subjects
China, Soil, Farms, Agriculture, Carbon, Triticum, Vicia faba
Abstract

Soil respiration is an important process for carbon emission. A field study was conducted with four treatments including T (traditional tillage+straw mulching level 0 kg·hm

Published
2018

6. [Diversity of the Microbial Community in Rice Paddy Soil with Biogas Slurry Irrigation Analyzed by Illumina Sequencing Technology]

Author

Jin-Shan, Zhu, Hui, Zhang, Lian-Jie, Ma, Dun-Xiu, Liao, Xing-Yong, Yang, Long-Chang, Wang, and Ding-Yong, Wang

Subjects
Soil, Agricultural Irrigation, Bacteria, Biofuels, High-Throughput Nucleotide Sequencing, Oryza, Soil Microbiology
Abstract

In order to explore the variation in soil microbial community diversity in paddy fields with different irrigation periods, we collected in situ rice field soils during different biogas irrigation periods and analyzed the microbial community structures of these soils by high-throughput sequencing. The results showed that as the biogas irrigation period increased, the soil pH decreased gradually, while organic matter, nitrate nitrogen, phosphate, and other nutrients were accumulated. Years of continued biogas irrigation was not conducive to improving rice yields. The results showed that as the biogas irrigation period increased, the richness in microbial species in paddy soils decreased gradually, and the diversity in the microbial communities was also reduced. Proteobacteria accounts for the largest proportion in rice paddy soil with biogas slurry irrigation. With the increase of biogas irrigation years, the proportion of

Published
2018

7. [Effects of intercropping Chinese milk vetch on functional characteristics of soil microbial community in rape rhizosphere]

Author

Quan, Zhou, Long Chang, Wang, Yi, Xing, Shu Min, Ma, Xiao Duan, Zhang, Jiao, Chen, and Chao, Shi

Subjects
China, Soil, Brassica napus, Rhizosphere, Agriculture, Astragalus Plant, Soil Microbiology
Abstract

The application of green manure is facing serious problems in purple soil region of southwest China. With the aim to explore the potential application of green manure, we examined the functional characteristics of soil microbial community in a system of Chinese milk vetch intercropped with rape. The innovations are the application of Chinese milk vetch in dry land of the southwest China and the establishment of new planting pattern of rape by providing empirical data. Results showed that the intercropping with Chinese milk vetch decreased the carbon resource use efficiency of microbial community in rape rhizosphere, especially for the utilization of carbohydrates. At the same time, Shannon index, Simpson index, and richness were reduced, but evenness index was increased by intercropping. Those results from cluster analysis and principal component analysis suggest that the soil microbial community composition was significantly different between monocropping and intercropping. The carbohydrates, amino acids and carboxylic acids were the sensitive carbon sources for differentiating the changes of the microbial community induced by monocropping and intercropping. Intercropping Chinese milk vetch could decrease functional activity, change community composition, and reduce diversity of soil microbial community in rape rhizosphere.在我国西南紫色土地区,绿肥应用面临严峻问题.为探索绿肥新的应用途径,本文通过绿肥紫云英与油菜间作,探讨了紫云英对油菜根际土壤微生物功能特征的影响,其创新性在于将绿肥紫云英应用于西南旱地,并为建立新的可持续种植模式提供试验数据.结果表明: 间作紫云英降低了油菜根际土壤微生物的碳源利用率,主要表现为降低了对糖类的利用强度;同时,间作紫云英使油菜根际土壤微生物群落的Shannon指数、Simpson指数和丰富度指数分别降低了5.9%、1.8%和19.9%,均匀度指数增加了1.4%.聚类分析和主成分分析表明,单作与间作之间的微生物群落功能特征存在明显差异,导致微生物群落功能差异的特征碳源为糖类、氨基酸类和羧酸类,其中D-葡糖胺酸和1-磷酸葡萄糖是间作紫云英下影响油菜根际微生物群落结构的特征碳源.表明间作紫云英降低了油菜根际土壤微生物群落的功能代谢活性,改变了油菜根际土壤微生物群落结构特征,从而降低了油菜根际微生物多样性.

Published
2018

9. Study on New Tea Soap Based Chelating Agent Synthetic Materials and the Repairing Effect of Heavy Metal Pollution in Environment

Author

Long Chang Wang, Bang Jiang Li, and Ming Zhong Long

Subjects
chemistry.chemical_classification, Chemistry, Precipitation (chemistry), Saponin, food and beverages, Water extraction, General Medicine, complex mixtures, Ion, Metal, chemistry.chemical_compound, Ionic strength, visual_art, Sodium sulfate, visual_art.visual_art_medium, Chelation, Nuclear chemistry
Abstract

By water extraction, precipitation method we can extract tea saponin from tea seed cake and design and synthesize the new green tea soap based chelating agent in the synthesis design (tea saponin sodium sulfate). Study on the surface properties, the surface tension is lower than the tea saponin, and the value of HLB, foaming ability and foam stability are better than that of tea saponin. At the same time, considering the effects of heavy metal rate oscillation time, chelating agent concentration, pH and ionic strength on the chelating agent to remove, the results show that with the increase of oscillation, the removal rate and time of heavy metal concentration increase, and decrease with the increase of ionic strength and pH, thus concluding the optimum process of the removal of pb2+, cd2+ ions: the oscillation time is 12h, the mass fraction is 7%,the concentration of Ca (NO3)2 is 5.0, 0.01mol/L. Under this condition, ion removal rate of pb2+, cd2+ ions is the highest. The removal rate of tea saponin sodium sulfate ion on Cd2 is higher than Pb2 + ions, and these two kinds of tea saponin sodium sulfate ion removal rate are higher than that of tea saponin, improvement effect is obvious especially for Pb2 + ion removal rate.

Published
2013

11. [Effects of Green Manure Intercropping and Straw Mulching on Winter Rape Rhizosphere Soil Organic Carbon and Soil Respiration]

Author

Quan, Zhou, Long-chang, Wang, Ying, Xiong, Sai, Zhang, Juan, Du, and Lin-lu, Zhao

Subjects
Manure, China, Soil, Brassica rapa, Rhizosphere, Temperature, Agriculture, Seasons, Carbon, Environmental Monitoring
Abstract

Under the background of global warming, the farmland soil respiration has become the main way of agricultural carbon emissions. And green manure has great potential to curb greenhouse gas emissions and achieve energy conservation and emissions reduction. However, in purple soil region of Southwest, China, soil respiration under green manure remains unclear, especially in the winter and intercropping. Through the green manure ( Chinese milk vetch) intercropping with rape, therefore, we compared the effects of rape rhizosphere under straw mulching. The soil organic carbon and soil respiration were examined. The results showed, compared with straw mulching, root separation was the major influencing factors of soil organic carbon on rape rhizosphere. Soil organic carbon was significantly decreased by root interaction. In addition, straw mulching promoted while green manure intercropping inhibited the soil respiration. Soil respiration presented the general characteristics of fall-rise-fall due to the strong influence of rape growth period. Therefore, it showed a cubic curve relationship with soil temperature.

Published
2016

12. Effect of exogenous methyl jasmonate on growth, gas exchange and chlorophyll contents of soybean subjected to drought

Author

Muhammad Farooq, Xiao yu Xie, Jalaladeen Salhab, Long chang Wang, Muhammad Shahbaz, Shakeel Ahmad Anjum, Lan lan Xue, and Elzenga lab

Subjects
Chlorophyll contents, EXPRESSION, Drought stress, growth, BARLEY, Photosynthetic pigment, gas exchange, Biology, Applied Microbiology and Biotechnology, chemistry.chemical_compound, Genetics, PLANTS, TOLERANCE, OXIDATIVE STRESS, Soybean crop, Molecular Biology, SEEDLINGS, Chlorophyll contents, drought stress, growth, gas exchange, soybean (Glycine max L. Merrill.), Methyl jasmonate, Water stress, fungi, drought stress, Moisture stress, food and beverages, soybean (Glycine max L. Merrill.), WATER-DEFICIT STRESS, L, chemistry, Agronomy, SENESCENCE, Chlorophyll, Glycine, ACID, Agronomy and Crop Science, Biotechnology
Abstract

Drought is considered as one of the major constraints to crop production worldwide. Methyl jasmonate (MJ) is a plant-signaling molecule that elicits a wide variety of plant responses ranging from morphological to molecular level. A pot-culture study was undertaken to investigate the possible role of MJ-treatment on growth, gas exchange and chlorophyll contents in soybean (Glycine max L. Merrill.) plants subjected to water stress. The soybean plants were grown under normal water supply conditions till blooming and were then subjected to moisture stress by withholding water followed by foliar application of MJ at the rate of 50 μM. Drought stress severely hampered the growth, leaf gas-exchange attributes as well as the photosynthetic pigment contents. It was evident from the experimental results that, MJ-treatment led to further impairment in growth by inhibiting the leaf gas exchange attributes and chlorophyll contents. It is worth noted that, MJ-treatment also hampered the performance of soybean crop under well-watered conditions. In all, MJ-treatment appeared to arrest the growth, impaired leaf gas-exchange attributes and caused the loss of chlorophyll contents of soybean plants under water deficit conditions. Key words : Chlorophyll contents, drought stress, growth, gas exchange, soybean (Glycine max L. Merrill.).

Published
2011

14. Effects of Nitrogen on Ramie (Boehmeria nivea) Hybrid and Its Parents Grown under Field Conditions

Author

Long-Chang Wang, Zizi Luo, Si-Yi Zhao, Jianjun Xu, Cheng-Jian Huang, Yucheng Jie, and Gang We

Subjects
Stomatal conductance, biology, Chemistry, food and beverages, chemistry.chemical_element, biology.organism_classification, Photosynthesis, Nitrogen, Boehmeria, Ramie, Horticulture, Agronomy, Cultivar, Proline, Transpiration
Abstract

Excessive nitrogen supply has resulted in environmentally negative impacts. In order to select and develop N-efficient ramie cultivars in increased N application environments, the morphological, physiological and biochemical responses of a ramie hybridization line (Chuanzhu 11) and its conventional parents (C9451 and R79-20) to N fertilizer were investigated under rain-fed conditions during three consecutive growing seasons. Two contrasting nitrogen levels (low nitrogen, LN: 20kg ha -2 ; high nitrogen, HN: 120kg ha -2 ) were used. Results indicated that high N substantially promoted the growth of ramie plants and led to remarkable increase in fiber yield in all cultivars during the three growing seasons. Such increase was also recorded in net photosynthesis, transpiration rate and stomatal conductance, as well as chlorophylls and carotenoids. However, high N supply caused no alteration or increase in intercellular CO2 (Ci) and Ci/ Ca (ambient CO2) ratio, depending on species. Moreover, high N application significantly improved soluble protein and proline content while it reduced malondialdehyde content. The activities of superoxide dismutase and catalase also elevated, whereas peroxidase activity decreased by high N application in all cultivars. Furthermore, hybrid cultivar Chuanzhu 11 exhibited better performance as compared to its parents C9451 and H7920 due to improved growth, fiber yield, leaf gas exchange traits and enzymatic and non-enzymatic antioxidant systems under high N supply conditions. In conclusion, ramie hybrid cultivar Chuanzhu 11 was more efficient to absorb and utilize high levels of N. This meets the need for uptake and utilization of high concentration of N in increased N fertilizer environments.

Published
2014

15. [Soil respiration and carbon balance in wheat field under conservation tillage]

Author

Sai, Zhang, Long-Chang, Wang, Zhao-Cun, Huang, Hui-Juan, Jia, and Chun-Yan, Ran

Subjects
Carbon Sequestration, China, Soil, Agriculture, Biomass, Soybeans, Zea mays, Carbon, Ecosystem, Triticum
Abstract

In order to study the characteristics of carbon sources and sinks in the winter wheat farmland ecosystem in southwest hilly region of China, the LI6400-09 respiratory chamber was adopted in the experiment conducted in the experimental field in Southwest University in Chongqing. The soil respiration and plant growth dynamics were analyzed during the growth period of wheat in the triple intercropping system of wheat-maize-soybean. Four treatments including T (traditional tillage), R (ridge tillage), TS (traditional tillage + straw mulching), and RS (ridge tillage + straw mulching) were designed. Root biomass regression (RR) and root exclusion (RE) were used to compare the contribution of root respiration to total soil respiration. The results showed that the average soil respiration rate was 1.71 micromol x (m2 x s)(-1) with a variation of 0.62-2.91 micromol x (m2 x s)(-1). Significant differences in soil respiration rate were detected among different treatments. The average soil respiration rate of T, R, TS and RS were 1.29, 1.59, 1.99 and 1.96 micromol x (m2 x s)(-1), respectively. R treatment did not increase the soil respiration rate significantly until the jointing stage. Straw mulching treatment significantly increased soil respiration, with a steadily high rate during the whole growth period. During the 169 days of growth, the total soil respiration was 2 266.82, 2799.52, 3 483.73 and 3 443.89 kg x hm(-2) while the cumulative aboveground biomasses were 51 800.84, 59 563.20, 66 015.37 and 7 1331.63 kg x hm(-2). Compared with the control, the yield of R, TS and RS increased by 14.99%, 27.44% and 37.70%, respectively. The contribution of root respiration to total soil respiration was 47.05% by RBR, while it was 53.97% by RE. In the early growth period, the carbon source was weak. The capacity of carbon sink started to increase at the jointing stage and reached the maximum during the filling stage. The carbon budget of wheat field was 5 924.512, 6743.807, 8350.741, 8 876.115 kg x hm(-2), respectively. The results indicated that ridge tillage and straw mulching conservation tillage significantly improved the carbon sink in the wheat farmland ecosystem.

Published
2014

16. [Analysis of soil respiration and influence factors in wheat farmland under conservation tillage in southwest hilly region]

Author

Sai, Zhang, Xiao-Yu, Zhang, Long-Chang, Wang, Hai-Xiu, Luo, Hang-Fei, Zhou, Zhong-Lian, Ma, and Cui-Wei, Zhang

Subjects
China, Soil, Cell Respiration, Animals, Agriculture, Soybeans, Carbon Dioxide, Invertebrates, Zea mays, Carbon, Soil Microbiology, Triticum
Abstract

In order to investigate the effect of conservation tillage on soil respiration in dry cropping farmland in southwest purple hilly region, the LI6400-09 respiratory chamber was adopted in the experiment conducted in the experimental field in Southwest University in Beibei, Chongqing. The respiration and the hydrothermal and biotic factors of soil were measured and analyzed during the growth period of wheat in the triple intercropping system of wheat/maize/soybean. There were four treatments including T (traditional tillage), R (ridge tillage), TS (traditional tillage + straw mulching) and RS (ridge tillage + straw mulching), which were all in triplicates. The results indicated that the soil respiration rate changed in the range of 1.100-2.508 micromol x (m2 x s)(-1) during the reproductive growth stage of wheat. There were significant differences in soil respiration rate among different treatments, which could be ranked as RSRTST. The soil temperature in the 10cm layer was ranked as TRTSRS. The relationship between soil respiration and soil temperature fitted well with an exponential function, in which the Q10 values were 1.25, 1.20, 1.31 and 1.26, respectively. The soil moisture in the 5cm layer was ranked as TSRSTR. The best fitting model between soil moisture and soil respiration was a parabolic curve, indicating the presence of soil moisture with the strongest soil respiration. The response threshold of wheat to soil moisture was 14.80%-17.47% during the reproductive stage. The dominant groups of soil animals were Collembola and Acarina, which were correlated with soil respiration to some extent. The correlation was high in the treatments T and R, ranged from 0.669-0.921, whereas there was no remarkable correlation in the other treatments.

Published
2013

17. CHROMIUM TOXICITY INDUCED ALTERATIONS IN GROWTH, PHOTOSYNTHESIS, GAS EXCHANGE ATTRIBUTES AND YIELD FORMATION IN MAIZE.

Author

Anjum, Shakeel Ahmad, Ashraf, Umair, Khan, Imran, Saleem, Muhammad Farrukh, and Long Chang Wang

Subjects
CORN yields, TOXICOLOGY of chromium, PLANT growth, PLANT photorespiration, HEAVY metal content of plants, HYBRID corn
Abstract

Accumulation and soil enrichment with non-essential heavy metals like chromium (Cr) above threshold levels results in Cr toxicity in plants. In order to study the effect of varying Cr stress levels on maize growth, photosynthesis and gas exchange capacities and yield responses, two maize hybrids i.e., Wan Dan 13 and Run Nong 35 were grown in soil contained pots contaminated with different concentrations of Cr (0 µM, 30 µM, 60 µM, 90 µM, 120 µM and 150 µM). Cr toxicity substantially reduced total chlorophyll contents, net photosynthesis, transpiration rate, inter-cellular CO2, stomatal conductance, water use efficiency and intrinsic water use efficiency. It further haltered growth (plant height, number of leaves/plant, leaf area, stem diameter, shoot fresh and dry weight) and yield and related attributes (ears/plant, number of kernels/row, 100-kernels weight, grain yield/plant, biological yield/plant) as well as harvest index both maize hybrids but the effects were more conspicuous in Run Nong 35 than Wan Dan 13. The overall toxicity of Cr to both maize hybrids were recorded as: 150µM > 120µM > 90µM > 60µM > 30µM > 0µM. In sum, Cr contamination negatively influenced on maize, however, Wan Dan 13 was better able to resist Cr-stress than Run Nong 35. [ABSTRACT FROM AUTHOR]

Published
2016
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