2011 Vol. 19, No. 3

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Stochastic simulation and uncertainty assessment of spatial variation in soil salinity in coastal reclamation regions
YAO Rong-Jiang, YANG Jin-Song, HAN Jian-Jun
2011, 19(3): 485-490. doi: 10.3724/SP.J.1011.2011.00485
Abstract(1691) PDF(1558)
Abstract:
A stochastic simulation technique was introduced for mapping spatial variation in soil salinity in typical coastal reclaimed regions in north Jiangsu Province. Ordinary Kriging and sequential Gaussian simulation (SGS) were used to simulate spatial distributions of soil salinity. Then the stochastic simulation result was compared with that of Kriging. Uncertainty in the spatial distribution of soil salinity was also assessed using sequential indicator simulation (SIS). The results revealed that ordinary Kriging yielded a continuous and smooth spatial distribution of soil salinity. The quality of spatial variability from Kriging reduced with change in spatial structure. The SGS technique gave a relatively discrete and fluctuating spatial distribution of soil salinity. Based on SIS analysis, uncertainties in non-saline soils, light-saline soils, medium-saline soils and heavy-saline soils suggested that the probability of soil salinization decreased significantly after reclamation. In high probability regions of light-saline soils, agro-biological amelioration was urgently needed. In the high probability regions of medium-saline soils, field irrigation and drainage installations should be improved. Furthermore, soil borrowing seemed to efficiently harness high probability regions of heavy-saline soils.
Spatial and temporal variations in soil water and salt in arid areas before and after irrigation
LI Bao-Fu, XIONG Hei-Gang, ZHANG Jian-Bing, LONG Tao
2011, 19(3): 491-499. doi: 10.3724/SP.J.1011.2011.00491
Abstract(1476) PDF(1243)
Abstract:
Spatial and temporal variations in soil water and salt contents of arid farmlands in Qitai County, Xinjiang was investigated before and one week, 3 weeks after irrigation through profiles sampling. The results showed low soil water contents (15.25%~16.70%) in all soil layers before irrigation, with moderate to weak spatial variability. Salt content in the upper 40 cm soil layer was strongly variable, while that in the lower soil layer was moderately variable. One week after irrigation, soil water and salt contents in the soil layers (except for the 0~20 cm soil layer with weak variability) remained unchanged, but their coefficients of variation dropped. Salt content variability in the upper soil layer changed to medium and strong. Average water content in the profiles increased by 10.51%, with a desalting rate of 8.94%. The rates of water increase (118.48%) and desalting (20.86%) in the 0~20 cm soil profile were the highest. On the other hand, the rates of water increase (40.54%) and desalting (-6.93%) were lowest in the 100~120 cm soil layer. Compared with the one week post-irrigation condition, variation in water and salt contents in the soil layers (except for the 80~100 cm soil layer) remained unchanged three week after irrigation. However, the coefficient of variation for water content increased while that for salt decreased. Average water content along the soil profile decreased by 5.20%. The rate of water loss (36.47%) in the surface 0~20 cm soil layer was highest while that (7.31%) in the 80~100 cm soil layer was lowest. The rate of salt accumulation (4.55%) in the surface soil was about 12 times that in the 20~40 cm soil layer. While desalting still occurred below the 40 cm soil layer, that in the 40~80 cm soil profile decreased. Desalting rate (9.03%) in the 80~120 cm soil layer increased.
Evaluation of irrigation and drainage water cation composition and salt leaching requirement in Hetao Irrigation District
LIU Xia, WANG Li-Ping, ZHANG Sheng-Wei, ZHANG Yi-Qiang
2011, 19(3): 500-505. doi: 10.3724/SP.J.1011.2011.00500
Abstract(1508) PDF(1388)
Abstract:
To determine where the salts go, variations in cation compositions of soil, irrigation water and drainage water in Hetao Irrigation District were analyzed. Field investigations and simulations of soil column leaching experiments were conducted to determine the changes in cation concentrations in irrigation water, drainage water and in soil profile. The study also discussed the use of water soluble Na+ concentration to determine irrigation/drainage ratio for salt leaching (LR). The results showed that the average ratio of Na+ to total salts in different drainage canal waters was about 87%, which was higher than that in irrigation water. The average ratio of Ca2+ was about 7%, which was lower than that in irrigation water. A significant correlation was noted between EC and Na+ concentration. This indicated that Na+ significantly influenced total salt concentration in drainage water. There existed an annual balance in Na+ input-output in irrigated areas. However, about 2/3 of irrigation water Ca2+ accumulated in soils with less water insoluble cation discharge. LR determined via Na+ proved to be better than using EC. Based on the results, a balanced Na+ input-output required an LR of 0.12~0.15. It meant that an annual drainage of 0.6~0.7 billion tons was reasonable for the annual irrigation of 5 billion tons in Hetao Irrigation District.
Water and salt distribution in coastal saline soil after infiltration of melt-water of saline water ice with different sodium adsorption ratio
GUO Kai, CHEN Li-Na, ZHANG Xiu-Mei, LIU Xiao-Jing
2011, 19(3): 506-510. doi: 10.3724/SP.J.1011.2011.00506
Abstract(1416) PDF(1423)
Abstract:
A laboratory soil column experiment was conducted to investigate water and salt distribution in coastal saline soil after saline ice melt-water infiltration. A salinity of 10 g·L-1 was designed with three variants of saline sodium adsorption ratios (SAR, i. e., 5, 10 and 30) as source water in the experiment, with fresh water as the control. The results showed that both the salinity and SAR levels of melt-water were extremely higher in the initial melt-water than in subsequent melt-waters. The infiltration rate and depth of the saline ice melt-water were higher than those of the control, and increased with the increasing SAR. Soil water content was lower in the 0~10 cm soil layer than in the deep soil after saline ice melt-water infiltration, which resulted in salt content in deep soil was higher than that in surface soil. The depth of soil desalinization was higher under saline ice treatments than the control. Soil water content in the 0~10 cm soil layer was higher in low SAR than in high SAR saline ice treatment. The reverse was, however, noted in the 10~45 cm soil layer. Salt content in the surface soil was lower in low SAR than in high SAR saline ice treatment. Average water and salt contents in 0~10 cm soil layer were 30.3% and 1.1 g·kg-1 respectively under treatment of SAR 5 saline water. They were lower than in other treatments. To compare effects of saline ice melt-water irrigation with direct saline water irrigation, a simulated column experiment was conducted by using water with 10 g·L-1 salt and SAR 10. The results showed that compared with the direct saline water irrigation treatment, the saline ice melt-water irrigation treatment presented better soil desalinization effect.
Speciation distribution of soil inorganic sulfur in three black soil areas of Northeast China
CHI Feng-Qin, WANG Jing-Kuan, ZHANG Yu-Long, WEI Dan, ZHOU Bao-Ku, KUANG En-Jun
2011, 19(3): 511-515. doi: 10.3724/SP.J.1011.2011.00511
Abstract(1450) PDF(1246)
Abstract:
Using field sampling and step-extraction method, this paper analyzed the distribution and fraction characteristics of soil inorganic sulfur in three black soil zones in Northeast China. The results showed that inorganic sulfur in the top 0~20 cm black soil accounted for 22% of total sulfur. Then of the total inorganic sulfur, H2O-S accounted for 6%, adsorbed-S for 3% and HCl-S accounted 13%. The order of H2O-S and adsorbed-S content in the black soil zones was Hailun > Bei’an > Gongzhuling. That of HCl-S was Gongzhuling > Hailun > Bei’an. Soil H2O-S and adsorbed-S changed little with increasing soil profile depth. Below 115 cm soil depth, HCl-S began to accumulate. Soil H2O-S and adsorbed-S exhibited significant positive correlations with organic matter, CEC (cation exchange capacity) and content of clay smaller than 0.002 mm. Soil H2O-S and adsorbed-S correlated with pH negatively. A significant positive correlation was noted between soil HCl-S and soil electrical conductivity. Total inorganic sulfur and HCl-S contents decreased with increasing period of land cultivation in Hailun black soil zones.
Effects of coal dust and temperature on CO2 emission in two soil types in Shanxi Province
LIU Ping, ZHANG Qiang, DU Wen-Bo, LI Li-Jun, BAI Guang-Jie, DING Yu-Chuan
2011, 19(3): 516-519. doi: 10.3724/SP.J.1011.2011.00516
Abstract(1419) PDF(1079)
Abstract:
By using incubation experiment, the effects of temperature and coal dust application degrees on soil organic carbon decomposition were measured in two soil types (soils from power generation and coke oven plants) in Shanxi Province. The results show that CO2 emission rates were higher in the early days under both room temperature (16~23 ℃) and 25 ℃ than those in the rest of the incubation period. In fact, CO2 emission rate at 25 ℃ was twice that at room temperature. Furthermore, CO2 emission rate and soil labile organic matter increased with increasing application degree of coal dust. At the highest possible application degree of coal dust, CO2 emission rate rose to 57.5 mg·kg-1·d-1, and labile organic matter content of two soil types increased by 0.3~3.8 g·kg-1. Under different temperature and application degrees of coal dust, the amount of CO2 emitted by the power generation plant soil was higher than that emitted by the coke oven plant soil. This may because of much more organic carbon and less clay particular in power generation plant soil. It also suggested that soil organic carbon decomposition was mainly driven by temperature. However, coal dust and soil physical and chemical properties also influenced the soil organic carbon decomposition. More importantly, coal dust increased soil CO2 emission while it at the same time improved soil carbon pool.
Effect of different fertilization modes on nutrients budget of crop-soil system
MA Qiang, LIU Zhong-Liang, ZHOU Hua, XU Yong-Gang, YU Wan-Tai
2011, 19(3): 520-524. doi: 10.3724/SP.J.1011.2011.00520
Abstract(1687) PDF(1267)
Abstract:
The nutrient budget of crop-soil system was analyzed based on the data from a consecutive 20-year field trial. The trial was consisted of eight fertilization treatments with different combinations of nitrogen (N), phosphorus (P), potassium (K) and recycled manure (M). Compared with treatments without M, M treatments averagely increased yields of soybean and maize by 22.9% and 16.4%, respectively. However, the yield increase due to M treatment was moderated by the application of chemical nutrients, especially that of N fertilizer. Although M application alone alleviated soil nutrient deficit, it did not facilitate high crop yield and well balance nutrient budget. P deficit was aggravated under the treatments with only N fertilizer. Application of N and P without K fertilizer resulted in high K deficiency. NPK+M treatment was the most appropriate fertilization mode for high crop yield and well balanced soil nutrient budget.
Effect of phosphorus application on growth of bitter Chinese lettuce and soil phosphorus leaching
NING Jian-Feng, LUO Wen-Jian, YANG Shao-Hai, ZOU Xian-Zhong, CHEN Yong, SUN Li-Li, WEI Lan, WU Jin-Long
2011, 19(3): 525-531. doi: 10.3724/SP.J.1011.2011.00525
Abstract(1487) PDF(1302)
Abstract:
A soil column experiment was conducted in net room to study the effects of different phosphorus levels [0, 0.05 g·kg-1(soil), 0.10 g·kg-1(soil) and 0.20 g·kg-1(soil)] on phosphorus uptake, utilization and yield of bitter Chinese lettuce and on soil phosphorus leaching. The results showed that phosphorus application significantly increased yield of bitter Chinese lettuce and also promoted phosphorus absorption by the plant. The highest yield (186.29 g per column) was observed under low phosphorus level [0.05 g·kg-1(soil)]. With increasing phosphorus level, yield and phosphorus use efficiency decreased significantly. There was no significant change in phosphorus uptake under different phosphorus levels. It was also noted that leaching of total phosphorus increased significantly with increasing phosphorus level. Under the same treatment, particulate phosphorus leaching was higher than dissolved phosphorus. The leaching ratios of phosphorus in different forms in all the treatments were less than 0.1%. Dissolved phosphorus leaching was highest at 10 days after phosphorus application under low phosphorus level. The second highest leaching occurred at 40 days after phosphorus application under moderate and high phosphorus level. High leaching of total phosphorus and particulate phosphorus were observed at 40~50 days after phosphorus application. Leaching of total phosphorus, dissolved phosphorus and particulate phosphorus drastically decreased at 60 days after phosphorus application. In terms of plant yield and phosphorus uptake, phosphorus use efficiency and soil phosphorus leaching, low phosphorus application [0.05 g·kg-1(soil)] was suggested for bitter Chinese lettuce in the region.
Effect of fertilization and irrigation on wheat-maize yield and soil nitrate nitrogen leaching in high agricultural yield region in North China Plain
ZHANG Yu-Ming, ZHANG Jia-Bao, HU Chun-Sheng, ZHAO Bing-Zi, ZHU An-Ning, ZHANG Li-Zhou, SONG Li-Na
2011, 19(3): 532-539. doi: 10.3724/SP.J.1011.2011.00532
Abstract(1581) PDF(1651)
Abstract:
Field experiment with several coupled fertilization and irrigation treatments was conducted in State Experimental Station of Agro-Ecosystem in Fengqiu. Effect of fertilization and irrigation on wheat-maize yield, distribution of nitrate nitrogen in soil profile and the risk of nitrate nitrogen leaching under wheat-maize rotation system was studied. The results indicated that reasonable combined application of nitrogen and phosphorus fertilizers was the key to improve crop yield under appropriate irrigation rate. The effect of combined nitrogen with potassium or combined phosphorus with potassium on increasing crop yield was not significant. The statistic results showed that the effect order of different factors on wheat yield was nitrogen ≥ phosphorus>irrigation> potassium, meanwhile the order on maize was nitrogen>phosphorus>potassium>irrigation. Only the effect of nitrogen and phosphorus on crop yield was statistically significant. Effect of fertilization and irrigation on the distribution of nitrate nitrogen in soil profile was great. With increased nitrogen rate and irrigation rate, the nitrate nitrogen content of accumulation peak in soil profile increased, the thickness of the peak widened and the peak occurred in deeper soil. The nitrate nitrogen content in deep soil increased due to high nitrogen rate input. Therefore the risk of nitrate nitrogen leaching increased. An appropriate rate of nitrogen fertilizer and irrigation, and combined application of nitrogen and phosphorus played important roles on decreasing nitrate nitrogen accumulation in deep soil profile and therefore mitigating nitrate nitrogen leaching risk. The result of this research indicated that the appropriate rate of nitrogen and phosphorus fertilizers were 400 kg(N)·hm-2·a-1 and 225 kg(P2O5)·hm-2·a-1 respectively. The appropriate irrigation rate was less than 280 mm in one year in this research region under wheat-maize rotation system.
Transfer of mineral nitrogen in maize root zone soil under different furrow irrigation modes
LIU Xiao-Gang, ZHANG Fu-Cang, YANG Qi-Liang, WANG Jin-Feng, LI Zhi-Jun
2011, 19(3): 540-547. doi: 10.3724/SP.J.1011.2011.00540
Abstract(1406) PDF(1136)
Abstract:
The objective of this study was to explore the distribution of mineral nitrogen in maize root zone soils under alternative furrow irrigation. To that end, micro-field rain-shield experiments were conducted to determine the effects of three different furrow irrigation modes [conventional furrow irrigation (CFI), alternative furrow irrigation (AFI) and fixed furrow irrigation (FFI)] on NO3--N and NH4+-N transfer in maize root zone soils. Results showed that NO3--N content in AFI root zone soils was similar to that in CFI. Also NO3--N in furrow profile occurred along centre line ridge symmetry. Under FFI, NO3--N content in wet furrow was less than that in dry furrow. The content in dry furrow steadily increased after fertilization. At harvest, NO3--N residue in AFI was slightly higher than that in CFI. Compared with NO3--N, NH4+-N content was very little. There was no significant difference in furrow and ridge in terms of NO3--N and NH4+-N content.
Effect of crop rotation on ion accumulation in secondary salinization soil of vegetable field in greenhouse
SHI Yi-Chao, HU Zheng-Yi, LONG Wei-Guo, XIA Xu, ZHU Chun-You, BA Yu-Xin, ZHAO Yan-Wen
2011, 19(3): 548-553. doi: 10.3724/SP.J.1011.2011.00548
Abstract(1557) PDF(1480)
Abstract:
Soil samples from ten plastic greenhouse vegetable fields (PGVF) and another ten soil samples from open vegetable fields (OVF) were collected in Aug. 2007 in Yixing City, Jiangsu Province. The soils were analyzed and compared for soil ion accumulation and soil electrical conductivity (EC). Two PGVFs with secondary salinization soil were selected to compare two crop rotation systems (CCC: castor-Chinese cabbage-castor; PCP: pepper-Chinese cabbage-pepper) for EC and ion accumulation. The study showed higher soil EC under PGVF (average of 433 μS·cm-1) compared with OVF (178 μS·cm-1). About 20% of the samples was detected with secondary salinization for EC >500 μS·cm-1 under PGVF. SO42- and NO3- anions were statistically higher in PGVF than in OVF. This implied that SO42- and NO3- were the main ions controlling soil salinization in the region. Field trial results showed that soil EC dropped by 5% and 33% after three consecutive crops in two years of CCC and PCP rotations, respectively. PCP rotation more effectively alleviated secondary soil salinization in PGVF than CCC rotation. SO42- ion accumulation was different in the two rotation systems, which dropped in PCP and rose in CCC. It was concluded that suitable rotation system should be adopted based on the main ions of secondary salinized soils and plant selectivity of ion uptake.
Effect of row space on population structure and photosynthetic available radiation in winter wheat-white clover intercropping system
SUN Zhen-Zhong, OUYANG Zhu, LIU Li-Ping, LI Fa-Dong
2011, 19(3): 554-560. doi: 10.3724/SP.J.1011.2011.00554
Abstract(1412) PDF(1249)
Abstract:
Winter wheat (Triticum aestivum L.) planted with several cropping patterns were intercropped with white clover (Trifolium repens L. vs Rivendel) in 2008~2010 cultivation seasons. Population structure, photosynthetic available radiation (PAR) and yield of wheat and intercropping system were investigated. Results of the experiment with six wheat cropping patterns (3 row spaces × 2 sowing rates) indicated that total stems, LAI, biomass and yield of wheat with 25 cm and 30 cm row spaces were significantly higher than those with 40 cm row space. The yield and harvest index of wheat with 30 cm row space and 217.5 kg·hm-2 sowing rate were 7 857.8 kg·hm-2 and 0.483, respectively. At heading and anthesis stages, less difference was noted in PAR between 30 cm and 40 cm row space treatments at the height of 20 cm above-ground of wheat plant. PAR values above 50 μmol·m-2·s-1 lasted at least 8 h in the 30 cm and 40 cm row space treatments. In white clover sole cropping, however, light compensation point was in the range of 30~50 μmol·m-2·s-1. It suggested that winter wheat-white clover intercropping with 30 cm or 40 cm wheat row space could met the requirement of effective light for photosynthesis in white clover. Another experiment with four treatments — two wheat varieties (“Xiaoyan 81” and “Jimai 22”) as sole crops and individual intercropping with white clover at 30 cm row space — were carried out. The results showed that “Xiaoyan 81” biomass was not affected by intercropping with white clover. Its’ LAI and ear density under intercropping were higher than those under monocropping. “Jimai 22” biomass, LAI and ear density under intercropping were lower than those under monocropping. Under intercropping, diurnal PAR variation at the top of white clover canopy exhibited a unimodal curve. Diurnal PAR at bottom of white clover canopy was less than 30 μmol·m-2·s-1. Diurnal PAR variation at the bottom of “Xiaoyan 81”-white clover intercropping system was smaller than that in “Jimai 22”-white clover intercropping system. In general, 30 cm row space of winter wheat was the most suitable for winter wheat-white clove intercropping. With respect to wheat variety, “Xiaoyan 81” performed better than “Jimai 22” under intercropping. This study had laid the basis for developing winter wheat-white clover intercropping systems in North China Plain.
High efficiency production and water-saving crop rotation systems in Shiyang River Area
HU Zhi-Qiao, TIAN Xiao-Hong, ZHANG Jiu-Dong, BAO Xing-Guo, MA Zhong-Ming
2011, 19(3): 561-567. doi: 10.3724/SP.J.1011.2011.00561
Abstract(1355) PDF(1085)
Abstract:
To deal with water shortage from unreasonable planting and irrigation modes in Shiyang River Area, 5 crop rotation systems with regulated deficit irrigation (RDI) was developed. Crop equivalent yield, water consumption, equivalent WUE, economic WUE and economic benefit were evaluated. Based on the study, for a rotation system, the overall order of equivalent yield, water consumption and economic benefit was full irrigation>mild RDI>severe RDI, the order of equivalent WUE and economic WUE was mild RDI>full irrigation>severe RDI. Compared with the other crop rotation systems, oil sunflower-wheat/soybean and wheat/soybean -wheat rotation systems had greater potentials in terms of yield, saving-water and economic benefit. In comparison with the traditional wheat/maize rotation, their equivalent yield increased by 14.1%~29.5% and -0.4%~28.7%, water-saving increased by 42.2~96.5 mm and 47.9~58.7 mm, equivalent WUE increased by 24.8%~37.3% and 8.2%~36.0%, economic WUE increased by 119.8%~149.2% and -0.1%~26.1%, and income increased by 25 785~29 656 Yuan·hm-2 and -614~5 501 Yuan·hm-2, respectively. Hence oil sunflower- wheat/soybean and wheat/soybean-wheat systems proved to be the better cropping modes. The two systems enhanced water-saving and economic WUE under mild RDI. It was recommended that the two cropping systems be used in place of the traditional wheat/maize rotation system to realize the full potential of agricultural production in the Shiyang River Area.
Effect of organic/inorganic compound fertilizer on the yield of crop and fodder double-cropping system in the Tibetan Plateau
HE Yong-Tao, SUN Wei, ZHANG Xian-Zhou, SHI Pei-Li, YU Cheng-Qun, ZHONG Zhi-Ming, HU Jun, ZHAO Hai-Zhen
2011, 19(3): 568-573. doi: 10.3724/SP.J.1011.2011.00568
Abstract(1378) PDF(1184)
Abstract:
Double-cropping system in the Tibetan Plateau refers to harvesting fodder after main grain harvests in the year. This not only provides fodder for livestock in winter and spring, but also enhances farmers’ income. It serves as an important overall driver of socio-economic development in the Tibetan Plateau region. In this study the effects of organic/inorganic compound fertilizer on the yield of double-cropping systems in the Tibetan Plateau were analyzed in a controlled field experiment using winter naked barley, fodder vetch or fodder maize. Results showed that organic/inorganic compound fertilizer increased soil temperature by 0.5~0.8 oC during over-wintering and reviving periods in winter naked barley. Compared with inorganic fertilizer, organic/inorganic compound fertilizer shortened the growth period of winter naked barley by 3~4 days. This served a beneficial effect for fodder vetch or fodder maize yield in the region. Leguminous plants were more adapted to the double-cropping system according to the fresh grass yield. Organic/inorganic compound fertilizer enhanced root biomass production in winter naked barley in the 10~20 cm soil depth. This also facilitated soil nutrient absorption, which in turn increased yield of winter naked barley. Furthermore, organic/inorganic compound fertilizer preserved much more soil nutrient. This significantly enhanced the growth and cultivation conditions in the farmlands of the Tibetan Plateau.
Effect of seeding rate on growth and nutrient accumulation of Chinese milk vetch
PAN Fu-Xia, LI Xiao-Kun, LU Jian-Wei, LU Jun-Ming, LIU Wei, WEI Yun-Xia, GENG Ming-Jian, CAO Wei-Dong
2011, 19(3): 574-578. doi: 10.3724/SP.J.1011.2011.00574
Abstract(1574) PDF(1340)
Abstract:
A field trial was conducted to study the effect of seeding rate on the growth, fresh yield and nutrient accumulation of Chinese milk vetch (Astragalus sinicus L.). The trial included 7 seeding rate treatments ranging from 7.5 to 52.5 kg·hm-2. The results showed that the number of emerged seedling increased with increasing seeding rate. However, number of branch and compound leaf, weight for per plant decreased with increasing seeding rate. Fresh yield also increased with increasing seeding rate. Significant differences were noted in fresh yield under seeding rate of 7.5~30.0 kg·hm-2. Once seeding rate above 30.0 kg·hm-2, however, no significant difference existed among the treatments. Seed yield initially increased with increasing seeding rate up to 15.0 kg·hm-2, and then decreased with increasing seeding rate. Seeding rate had no significant influence on nutrient content, but greatly influenced nutrient accumulation. The accumulation of C, N, P, K, Ca, Mg, Fe, Mn, Cu and Zn significantly increased with increasing seeding rate. It was therefore concluded that the most suitable seeding rate was 30.0 kg·hm-2 for green manure turnover, and 15.0 kg·hm-2 for seed production.
Effect of deficit irrigation with brackish water on growth and yield of winter wheat and summer maize
CHEN Su-Ying, ZHANG Xi-Ying, SHAO Li-Wei, SUN Hong-Yong, LIU Xiu-Wei
2011, 19(3): 579-585. doi: 10.3724/SP.J.1011.2011.00579
Abstract(1492) PDF(1399)
Abstract:
Pot and field experiments on deficit irrigation with brackish water were conducted. The objective of the experiments was to substitute fresh water of irrigation with brackish water, which could relieve water shortage in the Bohai Rim of China. The effects of deficit irrigation with brackish water on winter wheat yield, yield components and physiological characters were studied. The yield of the later crop, summer corn, was investigated too. The pot experiment showed that the order of irrigation for optimum wheat yield was double irrigation > single irrigation > rain-fed. Change in yield was mainly caused by the 1000-gain weight variation. The effect of salt levels of irrigation water on wheat yield was insignificant. In the field experiment, four treatments were analyzed — no irrigation after winter (A0), irrigation at jointing stage with fresh water (A1), 2 g·L-1 (A2) and 4 g·L-1 (A3) brackish water irrigation. The field experiment showed that brackish water irrigation decreased excise-leaf water loss, increased specific leaf weight and leaf area of winter wheat. No significant change was observed in kernel number per spike and spike number. The 1000-grain weight, however, decreased under brackish water irrigation. The order of yield for winter wheat under the treatments was A2>A3>A1> A0. Salt content in the 0~40 cm soil layer was enhanced under brackish water irrigation. It increased more obvious under higher salt concentration of irrigation water. Among the cations in the 0~40 cm soil layer, K+ + Na+ increase was most significant. Although there was no irrigation during the growth period of summer maize, maize yield under A2 and A3 treatments dropped by 11.8% and 18.8%, respectively, compared with A1. The yield drop in A2 and A3 was due to the accumulation of salts in the soil during the growth period of winter wheat. Yield under A3 was 8.0% lower than that under A2. The order of the total yield for winter wheat and summer maize was A2>A1>A3>A0. The results suggested that irrigation with 2 g·L-1 brackish water had no significant effect on annual yield of winter wheat and summer maize in the winter wheat/summer maize double cropping system.
Effects of N application levels and post-decapitation smearing of NAA on fruit abscission and yield of cotton (Gossypium barbadense L.) in saline soil
ZHANG Shao-Min, SUN Liang-Bin, NING Xin-Min, SHI Wu-Xin, FENG Gu, BAIDENGSHA
2011, 19(3): 586-592. doi: 10.3724/SP.J.1011.2011.00586
Abstract(1541) PDF(1016)
Abstract:
A field experiment was conducted to investigate the effects of decapitation (a conventional cotton cultivation technique in Xinjiang) and smearing NAA after decapitation on the yield and fruit abscission of cotton under low (226.5 mg·kg-1) and high (346.5 mg·kg-1) nitrogen doses in a saline soil. The results showed that fruit abscission rates of decapitation and smearing with NAA after decapitation were lower than those of non-decapitation treatment under both low and high nitrogen levels. Compared with the conventional decapitation treatment, smearing with 0.3 mmol·L-1 NAA after decapitation increased boll retention rate and cotton yield by 1.3% and 23.7%, respectively. It, however, decreased fruit abscission rate by 0.8%, under low nitrogen application. In terms of boll retention rate, fruit abscission rate and cotton yield under high nitrogen application, no significant difference was noted between smearing with 3 mmol·L-1 NAA after decapitation and conventional decapitation practices. Boll retention rate, weight per boll and number of opened boll were lower under high nitrogen level than under low nitrogen level. Furthermore, ginning yield was not different between different nitrogen levels in the same decapitation treatment. Lint weight under low nitrogen level was higher than that under high nitrogen level. It was concluded that smearing cotton with proper concentrations of NAA after decapitation increased boll retention rate and decreased fruit abscission rate, which eventually enhanced cotton yield. Cotton yield decreased with excessive nitrogen application level.
Effect of nitrogen/phosphorus ratio on biological characteristics and organic acid exudation in soybean roots
MIAO Shu-Jie, QIAO Yun-Fa, LIU Xiao-Bing
2011, 19(3): 593-596. doi: 10.3724/SP.J.1011.2011.00593
Abstract(1397) PDF(1764)
Abstract:
Three nitrogen/phosphorus ratios were designed in a sand culture test to analyze the effect of nitrogen/phosphorus ratio on the biological characteristics and organic acid exudation in the roots of soybean. Biomass and nodulation were investigated and organic acid exudation from the roots of soybean was measured with a high performance liquid chromatography. Results showed that at seedling stage, biomass accumulation in soybean was not affected by phosphorus. Suitable nitrogen levels were needed to maintain efficient nodulation. Low phosphorus increased organic acid exudation by the roots of soybean, which was promoted by high nitrogen content. With regards to root organic acid exudation, a negative interaction was noted between nitrogen and phosphorus.
Effect of plant-based fungicide coated compound fertilizer on tomato growth, nitrogen use efficiency and disease incidence
WANG Yan, WANG Xiao-Bo, LU Shu-Chang, XIN Nan, LIU Zhi-Qiang
2011, 19(3): 597-601. doi: 10.3724/SP.J.1011.2011.00597
Abstract(1644) PDF(1458)
Abstract:
Fungicide coated compound fertilizers were developed by using plant-based fungicidal materials. Then selected tomato species were used as experiment materials to study the effects of the fertilizers on growth, quality and nutrient use efficiency of plants. Based on the results, the coated fertilizers delayed nutrient release effectively in the ZYF1~ZYF5 (5 coated fertilizers with different plant-based fungicidal materials) treatments. Soil nitrate contents were higher even towards the later period of tomato growth under coated fertilizer treatments than that under conventional compound fertilizer treatment (CK1). Except for ZYF4, tomato yields for the coated fertilizer treatments were significantly higher than that for CK1. ZYF3 had the highest yield (11.1 kg·m-2), which was about 16.8% higher than that of CK1. Nitrogen use efficiency under the coated fertilizer treatments was higher than that of CK1 (33.3%). Nitrogen use efficiencies of ZYF2 and ZYF3 were respectively 9.9 and 9.5 percentage points higher than that of CK1. The coated fertilizers did not significantly influence tomato Vc content. While ZYF1 significantly reduced tomato nitrate content, ZYF2, ZYF4 and ZYF5 increased tomato nitrate content. Coated fertilizer treatments significantly lowered the incidence of tomato wilt and gray mold diseases. Among the treatments, ZYF1 potentially inhibited tomato wilt and gray-mold disease incidence more significantly, with disease incidence decrease of 17.7 and 12.5 percentage points compared with CK1.
Effect of chemical fertilizer dose on nutrient absorption and utilization of tomato cultured in organic substrate
LI Jian-Yong, GAO Jun-Jie, XU Shou-Guo, SHI Xiu-Zhu, YU Xian-Chang
2011, 19(3): 602-606. doi: 10.3724/SP.J.1011.2011.00602
Abstract(1684) PDF(1471)
Abstract:
Tomato was cultured in an organic substrate with two parts vermiculite and one part sheep manure. The effects of different chemical fertilizer application doses on N, P and K absorption and utilization of tomato were investigated under solar greenhouse conditions. Based on the results, N, P and K absorption and yield of tomato were enhanced by proper fertilizer application. The amount of N, P and K absorbed increased with the increasing chemical fertilizer dose. Also the utilization rate of N and K in organic substrate decreased with increasing fertilizer dose. However, the utilization rate of P increased with increasing of fertilizer dose. Furthermore, transformation of slow-releasing nutrients to available nutrient improved by proper fertilizer application. Under the organic cultivation, producing 1 000 kg tomato required 2.540 kg N, 0.751 kg P, 4.347 kg K. The calculation method of optimal chemical fertilizer dose under organic substrate culture was advanced in the study. The calculation formula was: chemical fertilizer dose = (1.5 times fertilizer dose needed for target yield - available nutrient content in organic substrate)/chemical fertilizer nutrient uptake ratio.
Differences in water use efficiency and aquaporin gene expression in waxy maize varieties under different stress conditions
ZHENG Xiao-Ya, ZHANG Zheng-Bin, XU Ping, YANG Yin-Fu
2011, 19(3): 607-613. doi: 10.3724/SP.J.1011.2011.00607
Abstract(1481) PDF(1290)
Abstract:
Aquaporin (AQP) is critical in coupling water and nutrients, which is an important mechanism of crop water (WUE) and nutrient (NUE) use efficiency. Differences in leaf water use efficiency (LWUE) and in aquaporin gene expression in waxy maize varieties were tested under various stress conditions. The stress conditions used in the study included low nitrogen (0.5N, half dose nitrogen of 0.5 Hoagland solution), high nitrogen (1.5N, 1.5 times nitrogen of 0.5 Hoagland solution), drought (10% PEG with -0.1 MPa water potential ) and salt (200 mmol·L-1 NaCl). Expressions of three AQP genes in the roots of waxy maize were tested by the RT-PCR method. The results showed that LWUE in three waxy maize varieties was less under 0.5N treatment than that under CK. It was, however, higher than that of CK under 1.5N and PEG treatments. TIP2a, TIP2b and TIP3.1 genes expressions were partially or completely suppressed under 0.5N stress treatment. The gene expressions were, however, amplified under 1.5N (for 6 h) and PEG (for 9 h) treatments. This suggested that TIP gene family was enhanced by nitrogen, drought and salt stress. Furthermore, the expression of TIP and LWUE were weaker under 0.5N treatment than under CK, but stronger on different degrees under PEG and 1.5N treatments than under CK. Close relations were noted between TIP gene expression and change in WUEL. These findings indicated that WUE was largely controlled by the levels of TIP expression, which was different among waxy maize varieties.
Comparisons of NH4+, NO3- and H2PO4- uptake kinetics in three different macrophytes in waterlogged condition
TANG Yi-Xuan, ZHENG Jie-Min, LOU Li-Ping, ZHANG Qi-Chun
2011, 19(3): 614-618. doi: 10.3724/SP.J.1011.2011.00614
Abstract(1897) PDF(2707)
Abstract:
In a kinetic experiment, the absorption of NH4+, NO3- and H2PO4- by three different emergent macrophytes (Canna generalis, Cyperus papyrus, Colocasia tonoimo) in waterlogged condition were analyzed in relation to values of landscape esthetics and economic value. Based on the analysis, the uptake rate of H2PO4- was highest in C. generalis. In fact, C. generalis continued to absorb H2PO4- in even low ion concentration conditions. This suggested that C. generalis successfully coped with a wide range of H2PO4- concentration. On the other hand, the uptake rate of NO3- was highest in C. papyrus. It was, however, not able to successfully adapt to low nutrient conditions (as C. generalis). The highest uptake rate of NH4+ was also in C. papyrus, and even of low concentrations of NH4+. Also, NH4+ absorption was lowest in C. generalis. The application scope of three plants on restoration of polluted water varied with ion absorption characteristics of the plants. C. generalis did generally well in all levels of H2PO4- polluting water. C. papyrus, on the other hand, was only suitable for pre-treatment of seriously NO3- polluting water. Then C. generali was usable in maintaining water quality after improvement to a certain degree. C. papyrus was applicable in various concentrations of NH4+ polluting water. C. generalis grew better in water environments that were less polluted by NH4+.
Field evaluation of the response and resistance to low temperature of alfalfa root with different root types during over-wintering
NAN Li-Li, SHI Shang-Li, CHEN Jian-Gang, ZHU Xin-Qiang, GUO Quan-En, ZHAO Wen-Han
2011, 19(3): 619-625. doi: 10.3724/SP.J.1011.2011.00619
Abstract(1601) PDF(1407)
Abstract:
Three alfalfa cultivars with different root types (rhizomatous root of Medicago sativa L. cv. “Qingshui”; creeping root of M. varia Martin. cv. “Gannong No. 2”; and tap root of M. sativa L. cv. “Longdong”) were used to study root adaptability to low temperatures during a natural temperature increasing-decreasing process in Tianshui, Yuzhong and Wuwei Counties of Gansu Province. Dynamic variations in proline, soluble protein, soluble sugar and MDA contents, and CAT and SOD activities in the roots were determined via trace analysis in late fall, winter and spring of the following year. The results showed that variations in root MDA content increased with decreasing air temperature in late fall and early winter. The trend in MDA content then also sharply decreased with decreasing air temperature and vice versa with increasing temperature in spring of the following year. Root contents of proline and soluble sugar, and CAT activity increased with decreasing air temperature and vice versa; the rules of soluble protein and SOD activity were difference with air temperature change in different ecotopes. Membership function analysis showed the order of cold-resistance of alfalfa cultivars was as M. sativa L. cv. “Qingshui” with rhizomatous root > M. varia Martin. cv. “Gannong No. 2” with creeping root > M. sativa L. cv. “Longdong” with tap root. The order of alfalfa cold-resistance in relation to the ecotopes was Yuzhong > Wuwei > Tianshui. Alfalfa cold-resistance and altitude were positively correlated.
Determining rapeseed tolerance to waterlogging at seedling stage in the Yangtze River basin
CHEN Juan-Ni, LIANG Ying
2011, 19(3): 626-630. doi: 10.3724/SP.J.1011.2011.00626
Abstract(1294) PDF(1139)
Abstract:
To determine rapeseed tolerance to waterlogging and to screen its proper evaluating indicators, 32 rapeseed (Brassica napus L.) genotypes were used in a simulated waterloging field experiment. The results showed waterlogging increased proline content, and decreased root activity, chlorophyll and protein contents, and root and plant dry weight of rapeseed. The waterlogging resistance of different rapeseed genotypes varied showing a great hereditary difference. “Zhongyou 821”, “Qianyou 18”, “Zhongshuang 11”, “09L553×L559”, “Zhongshuang 9” and “SWU 7” were classified as strong tolerance genotypes, and accounted for 18.75% of the total tested genotypes. “Chuanyou 58”, “Xianyouza 2” and “Chuanyou 20” were classified as weak tolerance geneotypes, and accounted for 9.38% of the total tested genotypes. The rest were medium tolerance genotypes. Correlation analysis indicated significant to extremely significant correlation between single and comprehensive wet-damage indices. Correlations among most single indicators wet-damage indexes were significant to extremely significant. Root vigor, total dry weight and proline content contributed a total of 79.41% to comprehensive wet-damage index. These indicators were effective for determining rapeseed tolerance to waterlogging.
Response of different peanut varieties to drought stress
ZHANG Zhi-Meng, WAN Shu-Bo, DAI Liang-Xiang, SONG Wen-Wu, CHEN Jing, SHI Yun-Qing
2011, 19(3): 631-638. doi: 10.3724/SP.J.1011.2011.00631
Abstract(1629) PDF(1367)
Abstract:
A total of 29 peanut varieties (lines) were planted in North China under artificially controlled moderate soil water stress conditions. Peanut growth rate and content of photosynthetic pigments were investigated to analyze drought resistance mechanisms and screen drought resistant genotypes. The results showed that different peanut varieties (lines) responded differently to the degree and time of soil water stress. Both the degree and time of water stress significantly influenced the morphological, physiological and biomass characteristics of peanut. Under moderate soil water stress, shoot growth in peanut was obviously inhibited. Main stem height and shoot biomass dropped significantly under moderate soil water stress. With prolonged stress period, main stem height decreased significantly. At maturity, stress index of main stem height and biomass of some peanut varieties (lines) dropped by 65%~70%. Root-to-shoot ratio, photosynthetic pigment content and specific leaf area increased under soil water stress at pod-producing and plump-pod stages. This trend also significantly increased with prolonged stress period. With the exception of branch number and carotenoid content, all other indices were usable in the identification of drought resistance of peanut varieties (lines) at pod producing stage. High drought tolerant varieties (lines) of peanut included “Jihua 4”, “Huayu 22”, “Huayu 24”, “Huayu 20”, “Huayu 21”, “Huayu 25”, “Tangke 8”, “Huayu 17” and “Huayu 27”.
Effect of continuous cropping on allelopathy of peanut root exudates
LIU Ping, ZHAO Hai-Jun, WAN Shu-Bo, REN Hai-Xia, LI Jin, YANG Li, YU Shu-Fang
2011, 19(3): 639-644. doi: 10.3724/SP.J.1011.2011.00639
Abstract(2087) PDF(1549)
Abstract:
Root exudates of peanut at podding stage under 3 years and 5 years of continuous cropping, and rotation cropping were collected using the continuous collection method. Allelopathic effects of the collected root exudates on soil microbes, peanut seed germination, seedling growth and development and membrane peroxidation were analyzed. The effects of continuous cropping on allelopathic effectiveness of peanut root exudates were also investigated. Results showed that root exudates at peanut podding stage stimulated the growth of root rot fungi (Fusarium sp.) 36194 mycelium, and activities of superoxide dismutase (SOD), peroxidase (POD) and catalase (CAT) and the content of malondialdehyde (MDA) in peanut leaf. It, however, inhibited the growth of N-fixing bacteria (Bradyrhizobium vigna) 14046, the elongation of seedling radicle and height, the fresh weights of leaf and stem, and root, and leaf chlorophyll content. The stimulating and inhibitive effects of peanut root exudates increased with both the increasing concentration of exudates and the length of period of continuous cropping. Accumulation of allelopathic substances in root exudates at podding stage was a possible obstacle to continuous peanut cropping.
Kinetic analysis of potassium absorption in rice accessions with different allelopathic potentials
WANG Hai-Bin, GUO Xu-Kui, ZHOU Yang, XU Zhi-Bing, HE Hai-Bin, LIN Wen-Xiong
2011, 19(3): 645-649. doi: 10.3724/SP.J.1011.2011.00645
Abstract(1612) PDF(1426)
Abstract:
The ion-depletion method was used to explore the differences in two rice accessions (allelopathic rice “PI312777” and non-allelopathic rice “Lemont”) on potassium ion absorption. Simultaneously, different expressions of the genes involved in potassium ion absorption were determined by FQ-PCR. The results showed that variations in △Km, -△Imax and △Cmin in allelopathic rice “PI312777” were significantly lower than those in the non-allelopathic rice “Lemont”. The order of Km and Cmin values for two accessions under different treatments was as follow: no starvation treatment with Hoagland solution (KControl) > starvation treatment with Hoagland solution (KAll) > starvation treatment with nutrient solution containing N, P and K (KNPK) > starvation treatment with nutrient solution only containing N and K (KNK) > starvation treatment with nutrient solution only containing P and K (KPK) > starvation treatment with Hoagland solution without N, P and K (KOther) > starvation treatment with nutrient solution only containing K (KK). The reverse order was observed for Imax. The results showed significant effects of nutrient elements on potassium ion absorption in the two rice accessions. Nitrogen presented the highest effect, which followed by phosphorus. Different gene expressions indicated that the genes related with root potassium ion absorption in the two rice accessions were up-regulated. However, the expressions of the genes in non-allelopathic “Lemont” were higher than those in allelopathic rice “PI312777”. This suggested that non-allelopathic rice “Lemont” was more sensitive to environment disturbance than allelopathic rice “PI312777”.
Analysis of physiological properties of rice (Oryza sativa L.) cultivars with different allelopathic potentials under dry field condition
SUN Xiao-Xia, WANG Hai-Bin, HE Hai-Bin, LU Jin-Chi, XIONG Jun, LIN Wen-Xiong
2011, 19(3): 650-654. doi: 10.3724/SP.J.1011.2011.00650
Abstract(1376) PDF(1282)
Abstract:
Allelopathic rice cultivar “PI312777” and non-allelopathic rice cultivar “Lemont” were used to explore physiological and biochemical response of rice cultivars with different allelopathic potentials to drought and weed stresses in paddy fields. The results indicated that under double stress (drought and weed), the order of biomass was “PI312777” in dry field > “Lemont” in wet field ≥ “PI312777” in wet field > “Lemont” in dry field. Further analysis showed that under dry field condition, “PI312777” rice exhibited the highest leaf chlorophyll content, protective enzymes activities, net photosynthetic rate and water use efficiency, but the lowest transpiration rate. Under dry conditions, “Lemont” rice exhibited the lowest leaf net photosynthetic rate, protective enzymes activities, soluble sugar content, soluble protein content and water use efficiency, but the highest MDA content. These results suggested that allelopathic rice “PI312777” had better adaptability and endurance to water deficiency than non-allelopathic rice “Lemont”.
Germination and seedling growth of ultra-dried alfalfa seed under alkali stress
HUO Ping-Hui, SHI Shang-Li, LI Jian-Feng, ZHANG Shu-Qing
2011, 19(3): 655-660. doi: 10.3724/SP.J.1011.2011.00655
Abstract(1370) PDF(1106)
Abstract:
The “Longdong” alfalfa (Medicago sativa L.) was used to determine the effect of alkali stress on germination and seedling growth of ultra-dried seeds. NaHCO3 and Na2CO3 were mixed in the ratio of 9∶1 for a typical alkali stress. Alkali concentration gradients of 0 mmol·L-1, 2 mmol·L-1, 5 mmol·L-1, 15 mmol·L-1 and 25 mmol·L-1 were used in the germination test of non-ultra-dried seeds. The germination test showed 15 mmol·L-1 was the highest alkali concentration limit for “Longdong” alfalfa with significant stress effect. Silica gel was used to reduce the moisture content of alfalfa seeds to 7.09%, 6.93%, 6.36%, 5.72%, 5.46%, 5.18% and 4.97% from an initial moisture content of 9.03% (CK). Next, a sand culture was developed to study the germination and seedling growth of different seeds under 15 mmol·L-1 alkali stress and neutral environments. The results showed that ultra-dried seeds with moisture contents of 6.93%~5.72% had better germination and seedling performance than CK under neutral environment. The 7-day seedling survival rate, 17-day shoot height and 23-day leaf number were respectively 18.18%~22.73%, 16.79%~32.49% and 15.65%~29.41% higher than those of CK. While seedlings of the ultra-dried seeds with 6.36%~5.46% moisture content performed obviously better in alkali stress compared with CK, the 7-day survival rate and 17-day shoot height were respectively 11.30%~30.66% and 1.64%~34.64% higher than those of CK. The 23-day leaf number was approximately 79.32%~98.24% of CK. The results suggested that ultra-drying pretreatment accelerated alfalfa seed germination and seedling growth under neutral and alkali stress.
Assessment of vegetable safety and heavy metal contamination risk in decomposed rape straw and coal gangue soilless culture substrate
TONG Guan-He, CHEN Jin-Yun, LIU Tian-Jiao, LUO Xun
2011, 19(3): 661-667. doi: 10.3724/SP.J.1011.2011.00661
Abstract(1699) PDF(1259)
Abstract:
Four species of vegetables, Chinese cabbage (Brassica chinensis), lettuce (Lactuca sativa), amaranth (Amarantus mangostanus), and spinach (Spinacia oleracea), were soillessly cultivated in biotron pots. The culture media were mixtures of decomposed rape straw and coal gangue in five volume ratios, which were 8∶2 (T1), 7∶3 (T2), 6∶4 (T3), 5∶5 (T4) and 4∶6 (T5), respectively. The state of heavy metal contamination and potential ecological risk in the cultivation systems of the four species of vegetables were assessed by using Nemerow Pollution Indices and Hakanson Indices, respectively. The results showed that three cultivated media (T1, T2 and T3) containing less coal gangue exhibited low levels of heavy metal contamination and less potential ecological risk. According to the green vegetable standards, vegetables cultivated in the three soilless media were valuated as good quality or safe in relation to heavy metal contamination. Cd and Hg were the main heavy metal contaminant and potential ecological risk factors in the compound media. The other heavy metals (Cr, Cu, Pb, Zn, As) had relatively low pollution capability. Furthermore, bio-availability of heavy metals (except for Cd and As) were strongly negatively correlated with organic matter, though slightly influenced by pH of matrix.
Analysis of heterosis, combining ability and heritability of cadmium content in brown rice of tri-line indica hybrid rice
CAO Ying-Jiang, YOU Shu-Mei, JIANG Kai-Feng, YANG Li, YANG Qian-Hua, ZHANG Tao, WAN Xian-Qi, ZHENG Jia-Kui
2011, 19(3): 668-671. doi: 10.3724/SP.J.1011.2011.00668
Abstract(1386) PDF(1135)
Abstract:
Five cytoplasmic male sterile (CMS) and 6 restorer lines of rice were used as parents in an incomplete diallel cross design. Thirty cross combinations with the same growth period were selected as materials in the analysis of heterosis, combined ability and heredity of Cd. The main results were as follow: A negative heterosis was noted in brown rice Cd content. For the CMS and restorer lines, the general and specific combination abilities about Cd content were both significant at P < 0.01. This showed that the breeding of combinations with low Cd accumulation depended on both genetic improvements and evaluation of the parents. For the Cd content, heredity in the broadest and narrowest sense was 97.73% and 80.10%, respectively. This explained that gene additive function was the main in the genetic code of grain Cd content. The results suggested that chosen parents of the early generation were good.
Physiological response of Perilla frutescens (L.) Britt. to cadimium
XIE Hui-Ling, CHEN Ai-Ping, ZHANG Feng-Ying, XIONG Ying, CHEN Yan-Ling, LIU Jie, ZHOU Li-Ying, LIN Rui-Yu
2011, 19(3): 672-675. doi: 10.3724/SP.J.1011.2011.00672
Abstract(1487) PDF(1242)
Abstract:
Hydroponic culture experiments were conducted to study physiological characteristics of Perilla frutescens (L.) Britt. under cadmium stress. The paper analyzed P. frutescens growth, cadmium accumulation and protective enzyme activities in leaf at Cd2+ concentrations of 0 mg·L-1, 2.0 mg·L-1, 5.0 mg·L-1 and 10.0 mg·L-1, respectively. The study showed that the per plant biomass of P. frutescens under cadmium stress dropped by 28.4%, 42.4% and 66.0% compared with control (0 mg·L-1 Cd2+), respectively. Extremely significant differences were noted among the different treatments. Per plant cadmium accumulation capacities under the cadmium treatments were 462.4 μg, 705.0 μg and 609.7 μg, with enrichment coefficients of 91.9, 70.0 and 51.1, respectively. This showed the superior ability of P. frutescens to accumulate cadmium or resist cadmium stress. Tests for SOD, POD and CAT enzyme activities further showed significant increases in SOD activity and MDA content in P. frutescens leaves under cadmium treatments. On the other hand, POD and CAT activities significantly dropped with increasing cadmium concentration. High cadmium concentration destructed protective enzyme balance, which restrained growth of P. frutescens.
Evaluation on the environmental quality about lead, cadmium, arsenic, chromium, mercury, copper and fluorine in the soils of Tieguanyin tea plantation in Fujian Province
GUO Ya-Ling, WANG Guo, LUO Dan, GE Hong-Li, WANG Gen-Fa, CHEN Jin-Huo, LUO Zhi-Yi
2011, 19(3): 676-681. doi: 10.3724/SP.J.1011.2011.00676
Abstract(1612) PDF(1593)
Abstract:
To learn the main pollutant elements contents in soils and their potential effects on tea production, 150 surface soil samples and the corresponding tea leaves collected from Tieguanyin tea plantations in Anxi, Hua’an and Yongchun Counties of Fujian Province were investigated. The contents of Pb, Cd, As, Cr, Hg, Cu and F in surface soils were analyzed for environmental quality. The results showed that contents of Cd, Pd and F in all soil samples, and contents of Cr, As, Hg in 97% soil samples were lower than the environmental requirement criteria NY/T 853—2004 for tea production. Contents of Cd, Cr, As, Hg in 92% soil samples, and content of Pb in 70% soil samples were lower than the environmental condition criteria NY 5199—2002 for organic tea production. The contents of Cd and F in soils from metamorphic rock, Cr in soils from sandstone, Pb in soils from rhyolitic tuff, As in soils from rhyolite, and Hg and Cu in soils form diorite were higher. The contents of Cd, Pb and Hg were higher in soils under paddy rice than those of Cr and As. There was high amount of Pb in lateritic red soils, high amounts of Cr and As in yellow soils, and high amount of Cu in red soils. It was therefore concluded that most soils of tea gardens in Fujian Province were clean from pollution and safe for tea production.
Understory vegetation community structure and diversity in low-value lichee (Litchi chinensis Sonn.) plantation in Dongguan of South China
ZHU Jian-Yun, XIE Dan-Dan, YE Yong-Chang, SU Zhi-Yao
2011, 19(3): 682-687. doi: 10.3724/SP.J.1011.2011.00682
Abstract(1797) PDF(1228)
Abstract:
Using field survey from an abandoned lichee (Litchi chinensis Sonn.) plantation in Dalingshan, Dongguan City, the community structure, diversity and niche characteristics of understory vegetation were analyzed. The field survey recorded 102 understory plant species, which belonged to 50 families and 85 genera. Thirteen ferns species of the vegetation mosaic belonged to 9 families and 9 genera; 65 dicotyledons belonged to 31 families and 52 genera; and 24 monocots belonged to 10 families and 24 genera. Shrubs and tree seedlings dominated the understory vegetation. There was no significant difference in species abundance between the shrub and herbaceous layers. No significant difference was also noted in the indices of species richness, evenness, Shannon-Wiener, and Simpson between the shrub and herbaceous layers. The dominant plant species included 8 shrubs (e.g., Raphiolepis indica), 7 herbs (e.g., Dicranopteris dichotoma) and 5 vines (e.g., Mussaunda pubescens). Niches breadth and niche overlaps were 0.909~1.450 and 0.567~0.955 for the main shrub layer, and 0.945~1.566 and 0.270~0.984 for the main herbaceous layer, respectively. The study revealed rich species of natural recruitment in the understory vegetation of lichee plantation. This was characterized by subtropical floristic elements with a complex structure. In view of the findings, it was suggested that in the transitional stage of Dongguan lichee industry, lichee plantation ceased to operate due to adverse stand conditions. Hence understory vegetation should be maintained or transformed into an ecological forest, which could help sustain the development of Dongguan lichee industry.
Effects of population density and temperature on the growth and development of Amata sp.
ZHAO Ming, WANG Ping, ZHOU Fu-Cai, GU Ai-Xiang, REN Jia, HU Qi-Jing
2011, 19(3): 688-691. doi: 10.3724/SP.J.1011.2011.00688
Abstract(1460) PDF(1346)
Abstract:
Artificial breeding conditions were used to investigate the effects of population density (1, 3, 5, 7 and 9 heads in one culture bottle) and temperature (25 oC, 28 oC, and 31 oC) on the development duration, survival percentage and feeding amount of Amata sp larvae. Compared with group breeding, single-head breeding prolonged the development time, lowered survival percentage and increased feeding amount. The development duration shortened with increased temperature at breeding temperature of 25~31 oC. A temperature range of 28~31 oC was beneficial to the growth and development of Amata sp. The highest survival percentage (79.47%) was obtained at a temperature of 28 oC, and the highest feeding amount per head (2.45 g) was obtained at 31 oC. The optimum artificial breeding conditions about population density were 3~5 heads per culture bottle at the first instar larval stage, and 1 head per culture bottle after the third larval instar stage. The breeding temperature range was 28~31 oC.
Merits of hedgerows in slope farmlands in the Three Gorges Reservoir area
WANG Xing, ZHANG Hong-Jiang, CHENG Jin-Hua, LI Jian-Qiang, LU Wen-Xing
2011, 19(3): 692-698. doi: 10.3724/SP.J.1011.2011.00692
Abstract(1620) PDF(1277)
Abstract:
Hedgerow is an agro-forestry technique with tremendous ecological and socio-economic functions. Its ecological benefits include soil and water conservation, which in turn enhances soil fertility and soil physical properties. Hedgerows also provide additional employment and income to farmers. This paper used analytical hierarchy process theory to establish indicator system consistent with ecological and socio-economic functions. These indicators were then used to evaluate the merits of six hedgerow patterns in slope farmlands in the Three Gorges Reservoir area. The plant species of six hedgerow patterns were Citrus reticulate, Pyrus pyrifolia, Zanthoxylum bungeanum, Vitex negundo, Morus alba and Begonia fimbristipula respectively. The entropy weight decision-making and expert grade methods were integrated to calculate synthetic weights of the indicators. This provided a more accurate assessment of hedgerow benefits in the region. The study showed that the highest and lowest ecological benefits were from V. negundo and B. fimbristipula hedgerows, respectively. Z. bungeanum hedgerow had superior economic and an overall comprehensive benefit over the other hedgerow patterns in the region. The social benefit of M. alba hedgerow was the highest among all the hedgerow patterns.
Evaluation of the benefits of leisure agriculture park based on emergy analysis
LIN Guo-Hua, CHEN Zhi-Feng, ZHONG Zhen-Mei, LIU Rong-Zhang, ZENG Yu-Rong, WENG Bo-Qi
2011, 19(3): 699-703. doi: 10.3724/SP.J.1011.2011.00699
Abstract(1239) PDF(1340)
Abstract:
Based on the characteristics of leisure agriculture park and emergy analysis, this paper analyzed emergy changes in Longtaishan Leisure Agriculture Park in Fujian. The paper revealed the conditions of emergy and material flow before and after reconstruction of the park. The study also analyzed material and emergy input and output, and the contribution of natural resources to social economy. The results showed that the reconstruction of the park improved the investment proportion of system organic emergy and yield rate of net emergy value. It reduced system investment ratio of emergy and also environmental loading ratio. The reconstructed park further enhanced sustainable development capacity with a high overall efficiency. Moreover, the paper laid the basis for the efficient improvement and sustainable development of leisure agriculture parks in Fujian.
Village-level land-use scenario decision-making system and application
YIN Ke, XIAO Yi
2011, 19(3): 704-711. doi: 10.3724/SP.J.1011.2011.00704
Abstract(1449) PDF(1045)
Abstract:
An interactive approach, based on village land-use allocation issues, was used to develop a village-level land-use scenario decision-making system. The system was backed up with three multi-goal linear programming methods [goal linear programming method, gradual easy constraint method and Lu’s method (reference 9)] to complete with optimum allocation of land resources. The effects were tested for Longxing Town in Yubei District, Chongqing City. The results showed the established village-level land-use scenario decision-making system combined multiple objectives into a comprehensive super-objective, and provided different approaches for the given problems. The optimum allocation results of land resources were analyzed to adjust and balance conflicts among objectives with different priority ranks. This in turn strengthened the final decisions due to a fuller understanding of the implications. The village-level land-use scenario decision-making system might be adjusted to be applied on the other scenarios, provided that the studied areas met the several criteria. The criteria included: (1) the studied areas was close to an urban; (2) it was attractive or of potential value for tourism; (3) agriculture was the main land use in the area; and (4) agricultural activity in the area was diversified. Village-level land-use scenario decision-making system based on available information and appropriate approach not only made the planning more transparent, but also integrated and coordinated conflicting among different interests.
Using fish conservation as object to estimate environmental flow in Jiaojiang River
WANG Xi-Qin, ZHANG Yuan, LIU Chang-Ming
2011, 19(3): 712-717. doi: 10.3724/SP.J.1011.2011.00712
Abstract(1504) PDF(1203)
Abstract:
A relationship between fish conservation object and flow rate was developed using a concept model. In Jiaojiang River, fish was considered as the main conservation object in identifying the key components of environmental flow. Then environmental flow in two monitored sections was estimated via FLOWS method. In the Baozhiao section, the low, highest and full bank flows were 6.8~17.3 m3·s-1, 22.2 m3·s-1 and 948 m3·s-1, respectively. Also the low and high flow pulses were 74 m3·s-1 and 110 m3·s-1, respectively. In the Linghai section, the low, high and full bank flows were 16.0~31.8 m3·s-1, 46.0 m3·s-1 and 2 488~3 184 m3·s-1, respectively. The suitable environmental flow occurrence time, duration and frequency were also estimated. Compared with the Tennant method, the results from FLOWS method better reflected the seasonal characterizes of environmental flow in the river. The study also simulated the interconnection between environmental and natural flow. The findings therefore laid the theoretical basis for water resources utilization and fish conservation in Jiaojiang River.
Analysis of farmers’ willingness to adopt small scale household biogas facilities
WANG Shi-Chao, LIANG Wei-Li, WANG Gui-Yan, LU Hong-Zhan
2011, 19(3): 718-722. doi: 10.3724/SP.J.1011.2011.00718
Abstract(1654) PDF(1836)
Abstract:
Adapting small scale household biogas to the conditions of local farmer households is crucial for the success of the technology. A survey was conducted in 2009~2010 on the current state of biogas facility construction and the problems related with using the facilities in Hebei Plain. A logistic model was built to quantitatively analyze the factors affecting farmers’ will to adopt small scale household biogas facilities in the region. Results showed most farmers were willing to adopt the facility. And governmental biogas extension section was the main resource for the farmers to learn the small scale household biogas. The service system needed to be improved to facilitate the application of the facility. The affecting factors analysis showed that low education levels of household heads negatively influenced the will to adopt the technology. Per-capita net income of farm families and excess labor in families were positively correlated with farmers’ will. Therefore, for developing the small scale household biogas facilities in rural areas, not only farmers’ needs and economic abilities were important, system equity and efficiency were also key points. The personal characteristics of farm family members, features of households and household agro-enterprises were critical too. A comprehensively sustainable adoption required provision of services and supports by the relevant sectors and government.
Loss of ecosystem services value due to food security
LU Wei-Ye, JIANG Zhi-De, ZHANG Ying-Long, XIE Yong-Sheng, LI Xiao
2011, 19(3): 723-727. doi: 10.3724/SP.J.1011.2011.00723
Abstract(1404) PDF(1324)
Abstract:
This paper clarified the important issues of the loss of ecosystem services value driven by food security and revealed the types and connotations of the loss. The loss of ecosystem services value caused by guarantee of food security was grouped into direct and indirect loss. Direct loss was further grouped into two. The first of the two groups was caused by conversion among different ecosystems corresponding to the land use adjustment. The second was resulted from adverse effect of food production on ecosystems in the vicinity of agro-ecosystems. Indirect losses was induced by decrease of ecosystem services value of lands, which was used to grain production rather than other land use type (or ecosystem) with higher services value.
Biological response of different broomcorn millet cultivars to immature soil
WANG Lu, ZHANG Yong-Qing, LI Peng, FENG Xiao-Min, YAN Jiang-Yan
2011, 19(3): 728-730. doi: 10.3724/SP.J.1011.2011.00728
Abstract(1415) PDF(1530)
Abstract:

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