中国生态农业学报(中英文)

Evaluation of soil quality under conservation tillage via factor and cluster analyses

WU Yu-Hong, TIAN Xiao-Hong, NAN Xiong-Xiong, CHI Wen-Bo, YAN Xiao-Li, ZHU Rui-Xiang, TONG Yan-An

2010, 18(2): 223-228. doi: 10.3724/SP.J.1011.2010.00223

Abstract(1826) PDF(1774)

Abstract:
In this study, factor (FA) and cluster (CA) analyses were used to evaluate the effect of the patterns of conservation tillage on soil quality. The squared Euclidean distance method of hierarchical cluster analysis was used for the cluster analysis. Twelve quantitative indicators related to soil property were selected based on results from long-term experimentation. Using factor analysis, five soil common quality factors (i.e., maintenance and supply capacity of soil nutrient, organic matter, phosphorus, bulk density, and enzyme activity) were derived from 12 soil chemical, physical and biological attributes. Factor scores show significant differences in superiority of the five common factors under different tillage patterns. Soil quality scores for conservation tillage (CT) are higher compared with traditional tillage (TT), implying improved soil physical, chemical and biological properties along with soil quality under CT. The top three integrated patterns with the highest scores include 30 cm subsoiling at one-year interval (NS2); combined straw mulching and 20 cm subsoiling, rotary tillage (SR2); and 30 cm subsoiling at yearly interval (NS3). This suggests outstanding advantage of the top integrated patterns in improving soil structure, soil fertility and overall soil quality. CA shows small differences in soil quality among different patterns under one tillage practice, indicating that tillage measurement is the key factor of soil quality.

Evaluation of farmland productivity on the earth and rockyarea of the South Loess Plateau

LIU Jing, CHANG Qing-Rui, CHEN Tao, LIU Zong-Yuan, WANG Yin-Fu

2010, 18(2): 229-234. doi: 10.3724/SP.J.1011.2010.00229

Abstract(2049) PDF(1668)

Abstract:
On the basis of the field investigation, field sampling and chemical analysis, farmland productivity in Chencang District, Baoji City was evaluated via GIS, Analytical Hierarch Program (AHP) and Fuzzy Mathematical Theory (FMT). The results show that farmland productivity in the study area can be classified into six grades. Grade 1 area accounts for 3.7%, grade 2 for 17.2%, grade 3 for 36.8%, grade 4 for 24.1%, grade 5 for 9.4% and grade 6 for 8.9% of the total area, respectively. The first three grades of farmland are mainly irrigated lands, orchards and vegetable fields, in that order. Grade 4 occurs in every township. Grades 5 and 6 (which are farmlands) mainly occur in the mountain areas with steep slopes, high altitudes and thin layers of soil. Analysis of the characteristics of each grade for every township is beneficial for scientific management of farmlands, sustainable use soils and soil fertilization.

Influencing factors of topsoil labile organic carbon in alpine grassland ecosystem on the southeast slope of Mountain Nyenquentanglha

WANG Jian-Lin, OUYANG Hua, WANG Zhong-Hong, CHANG Tian-Jun, LI Peng, SHEN Zhen-Xi, ZHONG Zhi-Ming

2010, 18(2): 235-240. doi: 10.3724/SP.J.1011.2010.00235

Abstract(1980) PDF(1431)

Abstract:
Alpine grassland is a widely distributed vegetation type across the Qinghai-Tibet plateau. In this paper, we studied the influencing factors of topsoil labile organic carbon in alpine grassland ecosystem on the southeast slope of Mountain Nyenquentanglha via field investigation and laboratory analysis. Based on the study, average topsoil (0～20 cm) labile organic carbon content in the alpine grassland ecosystem on the studied area is 2.61 ±0.31 g·kg^-1. The main factors influencing distribution of soil labile organic carbon are altitude and slope gradient (terrain factor), underground soil biomass in the 0～10 cm and 10～20 cm depths (vegetation factor), soil moisture of the 0～10 cm and 10～20 cm depths and soil bulk density of 0～20 cm depth (physical factor), and soil total K content (chemical factor). Soil moisture and bulk density present most significant influence. The distribution characteristics of topsoil labile organic carbon content is in increase-decrease-increase-decrease tendency with altitude in the range of 4 421～4 598 m.

Soil erosion characteristics under different vegetation coverage in the Loess Plateau

LI Bin, ZHANG Jin-Tun

2010, 18(2): 241-244. doi: 10.3724/SP.J.1011.2010.00241

Abstract(1985) PDF(1622)

Abstract:
The relationship between vegetation coverage and soil erosion in the Loess Plateau was determined via spatial overlay analysis on Geographical Information System platform. Water erosion accounts for 100% of all erosion in vegetation coverage grade 1; 95.61% in vegetation coverage grade 2, and 74.90%, 66.68% and 58.19% in vegetation coverage grade 3, 4 and 5 respectively. Frozen erosion is mainly distributed in vegetation coverage grade 4 and 5. With increase in vegetation coverage grade, the proportion of water erosion gradually decreases while those of wind, water-wind, and frozen erosion gradually increase. The soil erosion indexes of water erosion, wind erosion and water-wind erosion for vegetation coverage grade 5 are 657.56, 796.68 and 596.79 respec-tively-much higher than those for the rest vegetation coverage grades. Soil erosion is most severe for vegetation coverage grade 5. Change in vegetation coverage has a significant impact on soil erosion in the Loess Plateau.

Effect of different super absorbent polymers on soil moisture and soil nitrogen holding capacity

HUANG Zhen, HUANG Zhan-Bin, LI Wen-Ying, GUO Yuan, WANG Xiao-Qian, CHE Ming-Chao, DONG Li

2010, 18(2): 245-249. doi: 10.3724/SP.J.1011.2010.00245

Abstract(1875) PDF(1620)

Abstract:
Application of super absorbent polymer (SAP) is important for improving water and fertilizer use efficiency. In the present study, a soil column experiment was simulated to determine the effects of three SAPs [polyacrylate (SAP-A), organic-inorganic multiple agent (SAP-B) and humic acid (SAP-C)] on soil moisture and urea/ammonium nitrate nitrogen conservation under eight rounds of watering. Soil nitrogen application without SAP was used as the control treatment. The analyses show that all the three SAPs enhance soil moisture and nitrogen holding capacity, but at different degrees. For soil moisture conservation, SAP-A and SAP-B exhibit similar and better effect, while SAP-C shows relatively less effect. With increasing rounds of watering, the conservation effect of the three SAPs on soil moisture decreases. For soil nitrogen holding capacity, the effect of SAP-C on the two sources of fertilizer is sig-nificantly higher than that of the control, while the effect for ammonium nitrate is higher than for urea. Though SAP-A has significant holding capacity for urea, its holding capacity for ammonium nitrate is lower, and it even shows increasing nitrogen lose effect after 8 rounds watering. The nitrogen holding capacity of SAP-B is similar to that of SAP-C after 8 rounds watering for urea, but it is moderate for ammonium nitrate. The SAPs have some form of influence on soil urease activity, which correlates with soil nitrogen transformation. The order of the effects of the three SAPs on urease activity is SAP-B > SAP-C > SAP-A with urea application, and is SAP-A > SAP-B > SAP-C with ammonium nitrate application.

Effects of organic materials on the growth of pepper and amelioration of reservoir sediment

NING Jian-Feng, ZOU Xian-Zhong, YANG Shao-Hai, CHEN Yong, SUN Li-Li, WEI Lan, WU Jin-Long

2010, 18(2): 250-255. doi: 10.3724/SP.J.1011.2010.00250

Abstract(1665) PDF(1163)

Abstract:
To enhance agricultural utilization of reservoir sediments, pot experiment was conducted in a net-room to analyze the effects of organic materials on the growth of pepper and the chemical properties of reservoir sediments. From the results, application of market organic fertilizer, mushroom residue, chicken manure and peanut bran increases pepper yield, nitrogen and potassium uptake, and fruit soluble sugar and vitamin C content. The highest pepper yield is obtained in the mushroom residue treatment. A significant increase in organic matter, total nitrogen, available nitrogen in reservoir sediment is observed under the application of all of four or-ganic materials. Differences in available phosphorus, available potassium, total phosphorus and total potassium contents of reservoir sediment are induced by the application of different organic materials. While sediment pH significantly increases with the application of mushroom residue and chicken manure, there exists no difference in pH between the control and market organic fertilizer as well as peanut bran treatments. The highest exchangeable calcium and magnesium and CEC are noted under the mushroom residue treatment. Integrated fertility index (IFI) of reservoir sediment increases with the application of different organic materials. The mushroom residue treatment has the highest IFI among the four organic materials treatments. For optimal pepper yield, quality, nutrient uptake, and reservoir sediment chemical property and fertility, mushroom residue treatment is suggested.

Effect of integrated organic duck-rice farming on the dynamics of soil nutrient and associated economic benefits

ZHANG Miao-Miao, ZONG Liang-Gang, XIE Tong-Zhou

2010, 18(2): 256-260. doi: 10.3724/SP.J.1011.2010.00256

Abstract(2083) PDF(1801)

Abstract:
Conflict between soil nutrient supply and crop demand is one of the technical bottlenecks influencing organic crop production. In this study, certain nutrients were monitored during crop growth in soil samples from conventional paddy fields, transformed paddy fields and organic duck-rice farming fields. Based on the study, organic matter, alkali-hydrolysis N, available P and available K contents in organic duck-rice farming fields are relatively stable. Available K is much higher in organic duck-rice farming fields than in conventional paddy fields at panicle stage, while alkali-hydrolysis N, available P and available K contents are much higher in organic duck-rice farming fields at mature stage. Organic rice yield is lower than conventional rice whereas the price of organic rice is much higher than conventional rice - which has a considerable economic benefit. Based on the study, integrated organic duck-rice farming should be promoted.

Soil nutrient and microbial biomass in the Loess hilly area of Ningxia under different plant rehabilitation patterns

CHENG Yi, AN Shao-Shan, LI Guo-Hui, LI Di-Hong

2010, 18(2): 261-266. doi: 10.3724/SP.J.1011.2010.00261

Abstract(1893) PDF(1665)

Abstract:
Nutrient and microbial biomass carbon (Cmic), nitrogen (Nmic), phosphorus (Pmic) in soils of Guyuan Loess hills of Ningxia Province under natural grassland, cropland, abandoned cropland and varying ages of rehabilitated Caragana korshinskii shrub lands were determined. Base on the results, soil nutrients contents increase with increasing age of rehabilitation, and are generally low in cropland and newly abandoned cropland, with the exception of available P and total nitrogen. Soil microbial biomass is significantly different under different vegetations. Cmic occurs in the order of abandoned cropland < cropland < natural grassland < 3-year-old C. korshinskii shrub land < 13-year-old C. korshinskii shrub land < 23-year-old C. korshinskii shrub land. While natural grassland has the lowest Nmic, cropland, abandoned cropland and the different-aged C. korshinskii shrub lands have higher Nmic. Pmic is sig-nificantly different under different vegetations, especially in the soil depths of 5～20 cm and 20～40 cm. Soil Cmic, Nmic and Pmic are significantly related with vegetation type and rehabilitation age. C. korshinskii shrub shows obvious enhancing ability on soil microbial biomass, which is improved by increased rehabilitation age.

Soil organic carbon and nutrient content under different land use patterns in Jingdian Irrigation Zone

LI Yin-Ke, LIU Shi-Zeng, LI Fa-Ming, MAN Duo-Qing, ZHU Shu-Juan, LIU Shu-Juan

2010, 18(2): 267-271. doi: 10.3724/SP.J.1011.2010.00267

Abstract(2224) PDF(1950)

Abstract:
Soil organic carbon and nutrient contents were analyzed under four different land use patterns of annual medlar field (AMF) and perennial medlar field (PMD) in secondary saliferous soil, wheat field (WF) in un-saliferous soil and alfalfa field (AF) in wasteland in Jingdian Irrigation Zone. The analysis shows that organic carbon content and density, total nitrogen and Olsen phosphorus for WF are the highest, while those for AF are the lowest in the 0～60 cm soil layer. Soil total nitrogen has a significant positive correlation with organic carbon (r = 0.791, P < 0.01). There is a generally low C/N ratio for all the soil samples, that for PMD is highest and that for AMF is lowest. There is no significant difference in available potassium among the land use patterns. Soil bulk density is signifi-cantly higher for AF, due mainly to the relatively low soil organic carbon content (r = 0.420, P < 0.01). Soil organic carbon content and density are significantly lower while total nitrogen and Olsen phosphorus are higher under AMF relative to WF. Organic carbon content and density are also higher, total nitrogen content significantly lower and Olsen phosphorus content significantly higher un-der PMD in relation to AMF. An important finding of the study is that farmland soils deteriorate following secondary salinization whereas planting medlars improves soil physical and chemical properties in the study area.

Distribution and availability of phosphorus in black soil water-stable aggregate under different long-term fertilizations

SONG Chun, HAN Xiao-Zeng, WANG Feng-Ju, HOU Xue-Ying, ZHANG Di

2010, 18(2): 272-276. doi: 10.3724/SP.J.1011.2010.00272

Abstract(2137) PDF(1229)

Abstract:
The distribution and availability of P in black soil water-stable aggregates were studied in a long-term fertilization field experiment. The field is located at Hailun Station of Agro-ecology Research, Chinese Academy of Sciences. The experiment included a control with no fertilization (CK), treatments with only chemical (N and P) fertilization (NP) and with chemical and pig manure (NP+OM) fertilization. The results show that fertilization increases total P content in the soil water-stable aggregates. Total P in the soil water-stable aggregates under NP treatment increases by 28.9%～37.8% compared with CK, whereas that under NP+OM treatment increases by 44.0%～63.9% over NP treatment. Available P content is significantly different for different treatments. Available P in the soil water-stable aggregates under NP treatment increases by 146%～183% compared with CK, whereas that under NP+OM treatment is 3.4～5.3 times as much as treatment NP. Though total P and available P for all the treatments are evenly distributed in the >0.053 mm soil water-stable aggregate, a significantly drop is noted in the soil water-stable aggregates which are smaller than 0.053 mm. Calculated percent values of available P in total P indicate that fertilization favors P availability in soils. This is especially the case under NP+OM treatment. Percent values of available P in total P in the soil water-stable aggregates under treatment NP are 1.94～2.32 times as much as treatment CK, while those of treatment NP+OM are 2.13～2.83 times as much as treatment NP.

Effect of topdressing time of nitrogen fertilizer and controlled-release coated urea on winter wheat yield and apparent nitrogen recovery rate

LI Ruo-Nan, WANG Li-Ying, ZHANG Yan-Cai, LIU Meng-Chao, ZHAI Cai-Xia, CHEN Li-Li

2010, 18(2): 277-280. doi: 10.3724/SP.J.1011.2010.00277

Abstract(1992) PDF(1172)

Abstract:
Pot experiments were used to investigate the effect of topdressing time of nitrogen fertilizer and application of controlled-release coated urea on wheat yield, yield component, apparent nitrogen recovery rate and apparent soil nitrogen loss. The results show that jointing stage is the best time for topdressing of nitrogen fertilizer in winter wheat. Compared with 40% basal and 60% topdressing urea (F2) at jointing stage, nitrogen release trend of 30% urea, 35% coated urea with a release time of 90 d, and 35% coated urea with release time of 120 d (F4, F6) mixed basal application is more or less the same as that of plant nitrogen requirement. The total nitrogen accumulation under F4 (with normal N dose) increases by 6.11%, while under F6 (with 75% of normal N dose) increases by 8.48% compared with F2. Wheat yield, economic coefficient and apparent nitrogen recovery rate increase by 5.02%, 6.43% and 10.22% under F4 respectively. Furthermore, apparent soil nitrogen loss decreases. F4 increases yield by improving 1000-grain weight and single spike weight, F6 guarantees the yield through maintaining the grain number per spike.

Effect of nitrogen fertilizer type and application rate on cadmium uptake and grain yield of paddy rice

JIAKA La-Tie, YU Hua, FENG Wen-Qiang, QIN Yu-Sheng, ZHAO Jing, LIAO Ming-Lan, WANG Chang-Quan, TU Shi-Hua

2010, 18(2): 281-285. doi: 10.3724/SP.J.1011.2010.00281

Abstract(2021) PDF(1465)

Abstract:
A pot experiment with Cd-contaminated soil was conducted to study the effects of different nitrogen fertilizers and application rates on Cd uptake and grain yield of rice. Among four nitrogen fertilizers combined with same P and K fertilizers, urea produces the highest rice yield. Next is (NH₄)₂SO₄ and NH₄Cl, followed by NH₄NO₃, which produces the lowest yield. Among the four nitrogen fertilizers, NH₄Cl more significantly increases rice Cd content than urea, (NH₄)₂SO₄ and NH₄NO₃. It also facilitates Cd transfer from rice straw to grain. There is no significant difference in Cd contents in straw and grain among the other three nitrogen fertilizers treatment. While optimal rate of urea [0.2 g(N)·kg^-1] significantly lowers Cd content in rice grain, either zero N or high urea application rate significantly enhances grain Cd content. In Cd-contaminated paddy soils, using Cd-resistant rice cultivars in combination with optimized fertilization and water management practices considerably lowers grain Cd content below the maximum permissible level for pollution-free rice production.

Effect of fertilization method on soil available nutrients and taste of Japanese and Chinese rice

WANG Yan, CUI Jing, WANG Xiao-Bo, ZHAO Mei, ZHU Chang-Juan, SHI Li-Li, ZHANG Xin

2010, 18(2): 286-289. doi: 10.3724/SP.J.1011.2010.00286

Abstract(1998) PDF(1450)

Abstract:
The effect of the methods of fertilization on available nutrients and taste of Japanese and Chinese rice lines (ZR6, ZR13, ZR32, ZR51 and ZR63) were studied in a field experiment. The results show that yields are lower under Japanese high quality rice fertilization method (Japanese fertilization method) than under the conventional fertilization. Among the tested five lines, yield of ZR13 is the lowest while ZR63 is the highest. The content of soil ammonia N could be significantly increased by the conventional fertilization method compared to Japanese fertilization method, while the content of available phosphorous for the five lines be decreased. Based on change in taste, Japanese fertilization method, under which rice has a good taste, limits rice protein and amylase contents. Yield, protein and amylase contents of ZR63, which tastes the worst, are higher than those of the other lines. Compared with ZR63, the taste of ZR13 improves by 17.2% under Japanese fertilization method while that of ZR51 increases by 56.1% under conventional fertilization. Based on yield and taste, ZR32 and ZR51 are the ideal lines. The yield of ZR6 and ZR13 is lower than the other three lines. Though ZR63 has a high yield, its taste quality is low.

Effect of potassium, calcium and magnesium on yield, quality,and storage property of banana

YANG Bao-Mei, LI Jin-Quan, YAO Li-Xian, LI Guo-Liang, HE Zhao-Huan, ZHOU Chang-Min, TU Shi-Hua

2010, 18(2): 290-294. doi: 10.3724/SP.J.1011.2010.00290

Abstract(2194) PDF(1433)

Abstract:
Banana is a high potash-consuming crop. Potassium, nitrogen, calcium and magnesium are the four most vital nutrients for banana. And potassium, calcium and magnesium nutrient supplement one another. A field experiment was conducted to investigate the effects of potassium, calcium and magnesium application doses on banana plant growth, and fruit yield, quality and storage. The study shows that proper potassium, calcium and magnesium application doses promote banana growth, and enhance fruit yield and quality. And membrane lipid polyphenol oxidase activity and MDA content in peel, and amylase activity in pulp of banana fruit are debased under proper potassium, calcium and magnesium application doses. Various and simultaneous treatments also reduce weight loss during banana fruit storage, retarding ageing and increasing storability of banana fruit. To achieve high banana yield, quality and storability in Gaozhou City and the larger Guangdong Province, the simultaneous application of 990 kg·hm^-2 of K₂O, 37.5 kg·hm^-2 of Mg and 90.0 kg·hm^-2 of Ca are recommended.

Effect of foliage spraying of zinc, boron, manganese fertilizers on the accumulation and distribution of dry matter in Lilium davidii var. unicolor

HUANG Peng, ZHANG Wen-Tao, LU Zhe

2010, 18(2): 295-298. doi: 10.3724/SP.J.1011.2010.00295

Abstract(2025) PDF(1554)

Abstract:
The accumulation and distribution of dry matter and bulb yield in Lilium davidii var. unicolor was determined under foliage spraying of trace elements zinc, boron and manganese in hilly cropland. The results show that suitable concentrations of zinc, boron and manganese improve the accumulation and distribution efficiency of dry matter in L. davidii var. unicolor and also increase bulb yield. The most significant dry matter accumulation efficiency occurs at 200 mg·L^-1 zinc, boron and manganese, which presents an increase of 26.5%, 31.8% and 23.6% respectively compared with CK. Zinc and boron are conducive for the transfer and distribution of photosynthetic products to bulbs. At a concentration of 200 mg·L^-1 zinc and boron, the ratio of bulb to total dry matter at harvest increases by 4.16% and 2.44% respectively compared with CK. When manganese is applied alone, the ratio of bulb to total dry matter is less than that of CK. Decreasing range is positively correlated with spraying concentration. Treatments of 200 mg·L^-1 zinc and boron, and 100 mg·L^-1 manganese significantly enhance bulb yield.

Effect of combined Se and Co application on yield and protein,Se and Co contents in grain of corn

FAN Wen-Hua, GUO Li-Gang

2010, 18(2): 299-302. doi: 10.3724/SP.J.1011.2010.00299

Abstract(2044) PDF(1236)

Abstract:
A pot experiment was conducted to study the effect of combined Se and Co application on the yield, and the grain protein, Se and Co contents of corn. The results show that the application of Se alone does not significantly affect corn yield. Yield is also not affected when Co alone is applied at the rate of 5 mg·kg^-1. However, yield of corn obviously drops at 10 mg·kg^-1 or 20 mg·kg^-1 Co. Compared with the control, yield increases by 35.75% under combined application of 0.5 mg·kg^-1 Se and 5 mg·kg^-1 Co. Grain protein content is not influenced by individual or combined applications of Se and Co. Grain Se content is also not notably affected by Co. However, grain Se content increases under Se or combined application of Se and Co. Grain Co content increases under indi-vidual application of Se or Co. However, grain Co content decreases under combined application of 10 mg·kg^-1 or 20 mg·kg^-1 Co with Se. Generally, corn Se and Co nutrient improves under combined Se and Co application. Moreover, grain Se and Co is below the maximum safe level for livestock and poultry.

Effect of microbial organic fertilizer application on soil microbial activity

HU Ke, LI Hua-Xing, LU Wei-Sheng, LIU Yuan-Jin, WANG Li-Bin

2010, 18(2): 303-306. doi: 10.3724/SP.J.1011.2010.00303

Abstract(4469) PDF(3412)

Abstract:
Microbial organic fertilizer (which is a typical functional fertilizer) was used in a corn pot culture under greenhouse condition to determine the effect of microbial organic fertilizer on soil microbial ecology via plate count and BIOLOG ECO methods. The study shows significantly enhancement in the number of soil microbes under microbial organic fertilizer compared with chemical fertilizer. AWCD values and carbon source utilization analyses show that microbial organic fertilizer noticeably increases carbon source utility by microbes, especially utility of carboxylic, amino acids, and miscellaneous carbon sources. More carbon source is used under microbial organic fertilizer application than under other treatments. Microbial organic fertilizer increases carbon source utilization, improves soil microbial nutrient level, and also increases soil microbial community activity and diversity.

Effect of transgenic Bt cotton leaves on soil microbial community diversity

ZHANG Mei-Jun, YANG Wu-De

2010, 18(2): 307-311. doi: 10.3724/SP.J.1011.2010.00307

Abstract(1959) PDF(1551)

Abstract:
The diversity of soil microbial community and utilization pattern of polymer, amine, amino acid, carbohydrate, carboxylic acid and miscellaneous carbons were assessed via Biolog method on the 10th, 25th, 40th, 55th and 70th day of transgenic Bt cotton ground leaves decomposition. The results show decrease in soil microbial community richness and diversity, and increase in concentration index with ground leaves of transgenic Bt cotton. Ground leaves of transgenic Bt cotton has no effect on polymer and miscellaneous carbon utilization by soil microbes. It, however, obviously improves amine, amino acid and carbohydrate carbon utilization and also significantly debases carboxylic acid carbon utilization at the early stage of decomposition. Principal component analysis indicates that transgenic Bt cotton ground leaves have a sustained influence on indigenous soil microbial community structure and function.

Effect of cropping system on yield of strawberry and soil biological property under plastic greenhouse condition

YANG Xiang-Tian, ZHOU Cui, LI Jian-Hui, LI Wei-Long, LIN Jun

2010, 18(2): 312-315. doi: 10.3724/SP.J.1011.2010.00312

Abstract(1971) PDF(1467)

Abstract:
A 4-year experiment was conducted in plastic greenhouse to determine the effect of three different cropping systems [strawberry-solarization (strawberry monoculture with solarization to inhibit pathogens), strawberry-rice rotation, and straw-berry-melon rotation] on the yield of strawberry, soil microbes and soil enzyme activity. The results show that both the yield and economic output of strawberry increase under strawberry-solarization and strawberry-rice rotation compared with strawberry-melon rotation. Soil pH increases but salt accumulation and wilting disease declines under the two cropping systems. Compared with strawberry-melon rotation, both strawberry-solarization and strawberry-rice rotation increase soil microbial amount. And the microbe composition changes in two systems with 95.92%～96.21% bacteria population, while bacteria population proportion is 89.91% under strawberry-melon rotation. The ratio of bacteria to fungi under strawberry-solarization and strawberry-rice rotation is 9 times higher than that under strawberry-melon rotation. Soil invertase activity is also enhanced under strawberry-rice rotation and strawberry -solarization. The findings of the study suggest that "wet-drought" crop rotation such as strawberry-solarization and strawberry-rice rotation can eliminate soil restrictions to realize sustainability of production.

Effect of incorporated straw-nitrogen fertilizer on nutrient leaching in paddy soils

WANG Jun, WANG De-Jian, ZHANG Gang

2010, 18(2): 316-321. doi: 10.3724/SP.J.1011.2010.00316

Abstract(1895) PDF(1500)

Abstract:
In a field experiment in Changshu Municipality of Jiangsu Province, the effect of incorporated straw-nitrogen fertilization on nutrient leaching in paddy soils was determined. The study shows that NH₄⁺-N, NO₃^--N and total N concentrations in leachate increase with increasing rates of nitrogen fertilizer. Compared with no-straw treatment, straw treatment presents lower NH₄⁺-N and NO₃^--N concentrations in surface water and leachate. Total N and NO₃^--N concentration in leachate collected from 30 cm soil depth is the highest in straw treatment, with the ranges of 1.09～12.76 mg·L^-1 and 0.76～3.74 mg·L^-1, respectively. Total P concentration in the leachate is in the range of 0.02～0.79 mg·L^-1 with higher concentration in leachate of 30 cm soil depth than of 60 cm soil depth. It is enhanced with increasing rates of nitrogen fertilizer. When nitrogen fertilizer application excesses 180 kg·hm^-2, NH₄⁺-N is the main form in leachate collected in 5～10 days after fertilization in the 30 cm and 60 cm soil depth. For all other times, NO₃^--N nutri-ent is the dominant form in leachate. Combined application of nitrogen fertilizer and wheat straw reduces nitrogen and phosphorus concentration in surface water and leachate, and improves fertilizer efficiency.

Dynamics of soil carbon and nitrogen in plowed layer of spring corn and spring wheat fields mulched with straw and plastic film

BU Yu-Shan, SHAO Hai-Lin, WANG Jian-Cheng, MIAO Guo-Yuan

2010, 18(2): 322-326. doi: 10.3724/SP.J.1011.2010.00322

Abstract(2297) PDF(1342)

Abstract:
Field experiments were conducted to study the dynamics of soil organic carbon, total nitrogen and nitrate in plowed layer of spring corn and spring wheat fields under straw and plastic film mulching. The results indicate that straw mulching significantly increases soil organic carbon content during growth periods of spring corn and spring wheat. However, organic carbon content decreases under plastic film mulching. Irrigation reduces both the decline degree under plastic film mulching treatment, and the increase degree in straw mulching treatment of soil organic carbon during the growth periods of spring wheat. Soil total nitrogen and nitrate contents show "increase-decrease-increase" trend under both straw and plastic film mulching during growth periods of spring corn and spring wheat. However, the change range in soil total nitrogen, which is not significantly different among treatments, is much smaller than that in soil nitrate, which is significantly different among treatments. The effect of irrigation on soil total nitrogen content is insignificant for all mulching treatments during growth period of spring wheat, but it significantly limits the degree of increase in soil nitrate for all mulching treatments at jointing stage of spring wheat.

Effect of straw and plastic film mulching on warming and insulation of tea plantation in winter

YANG Shu-Yun, JIANG Chang-Jun

2010, 18(2): 327-333. doi: 10.3724/SP.J.1011.2010.00327

Abstract(2060) PDF(1261)

Abstract:
Three forms of mulching (plastic film mulching, two forms of straw mulching and CK) of tea plantation were compared to learn the role of mulching in warming and insulation in winter. The continuous investigation in 23 days on the lowest and highest temperatures on the mulching materials surface and the corresponding soil surface was conducted. The lowest correlation coefficient for the lowest temperature among measuring points is 0.889 and that for the highest temperature is 0.813 - both are at 0.01 level of significance. This indicates that temperature field is highly correlated. Compared with CK, straw mulching increases the lowest temperature by 1.2 ℃, while plastic film mulching by 0.2 ℃. The insulation effect of straw mulching is more significant compared with plastic film mulching, and is independent on the straw depth in sunny days. In cloudy and rainy or snow days, insulation effect of both the straw and plastic film mulching decreases, however, the straw mulching causes less decrease which is negatively correlated with straw depth. In sunny, the plastic film mulching increases the soil surface temperature, but, in cloudy days, not significant warming effect is observed. The warming effect of straw mulching is more obvious than that of plastic film mulching, and dependent on the type of straw, which is divided into four types, dry straw in sunny day, wet straw in sunny day, dry straw in cloudy day, and wet straw in cloudy day. In summation, compared with plastic film mulching, straw mulching has a better warming and insulation effect, zero pollution and a rich origin. Straw mulching is therefore more suitable for use as a cold-resistance material in the winter.

Water requirement regularity in Linze jujube (Ziziphus jujuba Mill. var.inermis Rehd. cv. Linze jujube) and jujube/crop complex systems in Linze oasis

SU Pei-Xi, XIE Ting-Ting, DING Song-Shuang

2010, 18(2): 334-341. doi: 10.3724/SP.J.1011.2010.00334

Abstract(1698) PDF(1166)

Abstract:
The water balance method was used to study water requirement regularity of Linze jujube, spring wheat, alfalfa monoculture system and Linze jujube/spring wheat, Linze jujube/alfalfa complex system in an 8 m3 observation pool (2 m × 2 m × 2 m ) under field environment. The results show that water requirements in the inner and edge oases for Linze jujube from root-activation to leaf-shedding stage are respectively 497.2 mm and 859.2 mm, spring wheat from sowing to harvesting stage are 447.9 mm and 809.9 mm and those for alfalfa from greening to frosting are 583.7 mm and 945.7 mm. Water requirements in the inner and edge oases for Linze jujube/spring wheat complex system are respectively 647.7 mm and 1 009.7 mm and those for Linze jujube/alfalfa complex system are 980.3 mm and 1 342.3 mm. In the edge oasis, the increased water require-ment of Linze jujube/spring wheat system is 17.5% and 24.7% of Linze jujube and spring wheat water requirement respec-tively. That of Linze jujube/alfalfa system is 56.2% and 41.9% of Linze jujube and alfalfa respectively. In the inner oasis, water requirement for Linze jujube is 84.6 mm in spring (April 25～May 31), 351.3 mm in summer (Jun. 1～Aug. 31) and 61.3 mm in au-tumn (Sep. 1～Oct. 5). For the growth period, water requirement is maximum (4.8 mm·d^-1) in July and 4.3 mm·d^-1 in June, with an average water requirement of 3.1 mm·d^-1. Linze jujube irrigation should be ensured in the four key periods of before flowering, fruit swelling, accelerated fruit growth and over-wintering. Irrigation amounts for these periods of growth should be 1 200 m3·hm^-2.

Determination of the effect of precipitation distribution on yield of wheat and pea in dryland using APSIM

LI Guang, HUANG Gao-Bao

2010, 18(2): 342-347. doi: 10.3724/SP.J.1011.2010.00342

Abstract(2294) PDF(1576)

Abstract:
By using APSIM model, the effect of precipitation seasonal distribution on crop yield was determined in rain-fed agriculture area of the Loess Plateau. Next, the effect of precipitation seasonality on crop yield was explored via integral regression analysis. The study shows that APSIM model can reliably simulate wheat and pea yield. Crop yield is highly related with annual precipitation and its seasonal distributon. The seasonal distribution of participation has a positive U-shaped quadratic relation with wheat and pea yield. Precipitation in the months of June and July significantly influences wheat yield, while that in the months of May and June importantly influences pea yield. With 1 mm increase in precipitation, wheat and pea yield respectively increases at the rate of 10.4 kg·hm^-2 and 10.3 kg·hm^-2. Seasonal precipitation distribution more importantly influences crop yield than annual precipitation.

Fuzzy model for grape sugar content and fruit shape index with irrigation quota as parameter

LI Tao, ZHANG Jian-Feng, ZHANG Jiang-Hui, WANG Quan-Jiu, ZHANG Sheng-Jiang, BAI Yun-Gang

2010, 18(2): 348-351. doi: 10.3724/SP.J.1011.2010.00348

Abstract(1940) PDF(1648)

Abstract:
Using matured Thompson seedless grape under extreme drought conditions and deep pit infiltration irrigation technique, the effect of different irrigation quotas on grape sugar content and fruit shape index was determined. The results show that grape fruit shape index and sugar content follow a normal distribution curve. Fruit shape index and grape sugar content were divided into six groups by fuzzy cluster analysis method. After averaging, a good fuzzy relation was observed between grape fruit shape index and sugar content. A fuzzy model for the fruit shape index and sugar content with irrigation quota as parameter was established. From the model, the relationship between fruit shape index and sugar content as influenced by irrigation quota is distinct. This study further proves the impact of irrigation quota on fruit shape index and sugar content.

Soil water dynamics under artificial Caragana microphylla shrub in the loess hilly region of Northwest Shanxi Province

YANG Zhi-Ping, ZHANG Qiang, WANG Yong-Liang, ZHANG Jian-Jie, JI Rui-Rui

2010, 18(2): 352-355. doi: 10.3724/SP.J.1011.2010.00352

Abstract(1800) PDF(1247)

Abstract:
Soil moisture is a key factor for the growth and survival of vegetation in the loess hilly region. Soil moisture dynamics was monitored under artificial Caragana microphylla shrub at 5 ages (5, 10, 20, 30 and 40 years after germination) in the loess hilly region of Northwest Shanxi Province in 2006. The results show decreasing soil moisture content (SMC) under artificial C. microphylla shrub with increasing age. SMC is lowest under the 40-year shrub. SMC under the shrubs is generally lower than under nearby wastelands. Based on monthly trend, SMC gradually decreases from April to June (hitting the lowest point in June), and then gradu-ally increases from August to October. Vertically, SMC in the 0～200 cm soil layer gradually decreases with soil depth, especially in the 40～80 cm soil layer. During shrub growth period, soil moisture circulation is low. It is only 4.63% under the 40-year shrub, which is 2.92% less than that under nearby wastelands. Furthermore, the overall soil moisture balance is negative. It then implies that the artificial C. microphylla shrub is under moisture stress in the loess hilly region. In the long-term, moisture stress could threaten the growth and survival of artificial C. microphylla shrubs in this region.

Isolation and enzymatic characteristics of cellulase producing microbial community

SONG An-Dong, WANG Lei, ZHANG Lei, ZHANG Xiao-Qing, DU Ran, LI Shi-Zhong

2010, 18(2): 356-0. doi: 10.3724/SP.J.1011.2010.00356

Abstract(1904) PDF(1469)

Abstract:
A cellulase producing microbial community (MO) was isolated from rotted beanstalk compost. When the community was cultured at pH 8.0 and 50 ℃, maximal CMCase activity (1.361 1 IU) is observed in 90 hours. The optimal conditions for enzymatic reaction are 60 ℃ at pH 7.0. High heat and pH stability is observed at temperature lower than 60 ℃ and pH 3～8. CMCase activity of cellulase can reach 2.13 IU at optimal reaction point. Growth kinetics indicate some relationships among pH, CMCase activity and weight loss rate in different growth phases of microbial community. Through cellulase analysis for zymogram via native-PAGE, seven activity bands are observed. This suggests that more than one strain is responsible for the production of enzyme in MO.

Dynamics of Eupatorium catarium Veldkamp allelopathy in the process of decay

LI Qin-Fen, LI Guang-Yi, ZHANG Gui-Hua

2010, 18(2): 360-364. doi: DOI:10.3724/SP.J.1011.year_id].0360

Abstract(2095) PDF(1703)

Abstract:
The dynamics of Eupatorium catarium Veldkamp allelopathy was investigated under natural decomposition by bioassay of cabbage. The results of experiment with petri-dish filter paper method show that aquatic extracts from E. catarium that is naturally decomposed outdoors has an inhibitive effect on cabbage seed germination. While the inhibition effect increases with increase in extract concentration, it, however, decreases with decomposition time. With regards to the length of cabbage root, 0.1 g·mL^-l aquatic extract of E. catarium inhibits root growth at every decomposition stage. With the exception of undecomposed E. catarium, other concentration extracts during decomposition enhances root growth. Aquatic extract from E. catarium also enhances cabbage stem growth. A pot experiment where 2 kg soil is mixed with 50 g E. catarium plant is used as a growth matrix for cabbage shows inhibi-tion on cabbage germination at the rate of 68%. However, after 10 days of decomposition, inhibition completely disappears. Cabbage biomass significantly increases when treated with E. catarium during its decomposing. The findings imply that E. catarium could be a vital source of nutrient for crops. But as green manure, fertilization amount and application method should be in accordance with E. catarium allelopathy intensity and duration at different growth stages of different crops.

Characteristics of aquatic plant roots, soil microbes and agricultural non-point source pollutant mitigation in riparian buffer zones

YAO Shui-Hong, LIU Yan-Qing, WANG Qing-Hai, XIAO Bo, SONG Dian-Li

2010, 18(2): 365-370. doi: 10.3724/SP.J.1011.2010.00365

Abstract(2076) PDF(1471)

Abstract:
An experiment was conducted on the characteristics of root morphology and vitality, and soil microbial community diversity of three typical aquatic plants to determine their mitigation efficiency of agricultural non-point source pollutants in riparian buffer zones. All the aquatic plants used have significantly differences in the characteristics of root morphology and vitality. Root vitality values of the aquatic plants are in the following order: Iris pseudacorus > Acorus calamus > Lythrum salicaria. Root vitality has a significant correlation with root tip number. The aquatic plants show significant rhizosphere effect, soil microbial biomass in rhizosphere is markedly higher than that in bulk soils. Furthermore, microbial community in rhizosphere soils of the riparian buffer zone has the composition sequence as: bacteria > actinomycetes > fungi. Soil microbial community diversity index is as follows: I. pseudacorus > A. calamus > L. salicaria, having the same tendency as that of root vitality. The order of removal efficiency of TN, TP and COD_cr by the aquatic plants in the riparian buffer zone is I. pseudacorus > A. calamus > L. salicaria. The results suggest that variations in root vitality caused by differences in root structure of aquatic plants influence soil microbial community structure and diversity. This results in the differences in removal efficiencies of agricultural non-point source pollutants in riparian buffer zones.

Response of germination and growth of nine Festuca arundinacea Schreb varieties to zinc stress

ZHANG Yuan-Bing, LIU Ai-Rong, DONG Jian-Guo, CUI Bing-Xiang

2010, 18(2): 371-376. doi: 10.3724/SP.J.1011.2010.00371

Abstract(1913) PDF(1432)

Abstract:
The effect of different Zn²⁺ concentrations (0, 75 mg·L^-1 and 150 mg·L^-1) on seed germination potential, germination rate as well as seedling root length, shoot height, fresh weight, chlorophyll content, malondialdehyde (MDA) content and cell membrane permeability of nine varieties of F. arundinacea were studied via a solution culture experiment. With increasing Zn²⁺ concentration, germination potential of "Arid 3" and fresh weight of "Fire phoenix" initially increase followed by a decrease. Those of the other varieties steadily decrease with increasing Zn²⁺ concentration. Germination rate of "Red elephant", "Coronado gold", "Acending star", "Fire phoenix" and "Arid 3" increases initially before decreasing, whereas that of the other four varieties steadily declines. Root length, shoot height and chlorophyll content of the nine varieties decline, while MDA content and cell membrane permeability rise. Synthetic analysis of eight parameters via Delphi method indicates that at 75 mg·L^-1 Zn²⁺ stress, the order of zinc tolerance of the nine varieties is "Fire phoenix" > "Red elephant" > "Bingo" and "Plantation" > "Acending star" and "WranglerⅡ" > "Magellan" > "Coronado gold" > "Arid 3". Under 150 mg·L^-1 Zn²⁺ stress, zinc tolerance order is "Fire phoenix" and "WranglerⅡ" > "Bingo" > "Coronado gold" > "Arid 3" > "Acending star" > "Red elephant" > "Magellan" > "Plantation". The varieties of F. arundinacea should therefore be reasonably selected in environmental management of Zn²⁺ pollution based on pollution degree.

Early signs of heat stress-induced abnormal development of anther in rice

DENG Yun, TIAN Xiao-Hai, WU Chen-Yang, Tsutomu MATSUI, XIAO Bo

2010, 18(2): 377-383. doi: 10.3724/SP.J.1011.2010.00377

Abstract(1936) PDF(1251)

Abstract:
A continuous high temperature (other than short-term rise in temperature) leads to heat stress in rice at the reproductive growth stage under field conditions. Hence rice can be sensitive to heat stress from meiocyte meiosis to anthesis stage, and not just at anthesis. Rice is likely to respond to heat stress in a cumulative way. Under imitated daily field microclimatic conditions for heat stress, the rice cultivar "Jinyou63" (which is a hybrid rice combination) was treated with a consecutive 3-day heat stress during meiosis in phytotron. Anther and pollen tissues at different development stages after subjected to heat stress were sampled and analyzed for transverse abnormalities. The analysis shows that under heat stress, meiocytes degenerate while tetrad cell dispersion fails at microspore formation phase. During pollen maturation phase, loss of orientation of reproductive cells, abnormal vacuolization of tapetal cells, paramorphia or abortion of anther walls and pollens are observed under heat stress. In addition, pollen activity at anthe-sis decreases significantly under heat stress during meiosis stage. The findings suggest that abnormalities in anther tissues and repro-ductive cells are caused by heat stress before heading. This decreases yield potential of active pollens and destroys dehiscence and pollination, which could be the primary cause of rice sterility under continuously high temperature field conditions.

Distribution and daily activity of adult western flower thrips [Frankliniella occidentalis (Pergande)] under solar greenhouse condition

PEI Chang-Ying, ZHANG Yan-Ping, ZHENG Chang-Ying

2010, 18(2): 384-387. doi: 10.3724/SP.J.1011.2010.00384

Abstract(1771) PDF(1368)

Abstract:
The distribution and daily activities of adult western flower thrips on eggplants under solar greenhouse condition were investigated in late March 2009. The thrips were surveyed using blue sticky traps. Results show that the number of adult western flower thrips caught in the solar greenhouse gradually decreases from north to south. The average catch in the north is 65.3 adults per group of blue sticky traps, that in the middle is 40.0 adults per group of blue sticky traps, and that in the south is 20.4 adults per group of blue sticky traps. Daily average catch differs significantly between the south and north. From west to east, the catch in the middle is less than those in the east and west. Vertically, adult western flower thrips are found on all the leaves of the eggplants. The adults caught by the blue sticky traps gradually increase from 7:00 am to 15:00 pm, then gradually decrease - indicating a single daily peak of activity. Generally, the traps facing south catch significantly more adult western flower thrips (330.6 adults per day) than the ones facing north (242.2 adults per day). Similarly, the traps facing east catch significantly more adults (343.8 adults per day) than the ones facing west (208.0 adults per day).

Method of evaluation of response extent of forests to disturbances and its application-A case study of Qingyuan Experimental Station of Forest Ecology,Institute of Applied Ecology, Chinese Academy of Sciences

YU Li-Zhong, ZHU Jiao-Jun, YAN Qiao-Ling, SUN Yi-Rong, YAO Li-Ping, LI Gui-Qin, FANG Hai-Xia

2010, 18(2): 388-392. doi: 10.3724/SP.J.1011.2010.00388

Abstract(2107) PDF(1504)

Abstract:
Based on the phenomena that disturbances for different forest types are different, an index system for evaluating the response extent of forests to disturbances (REFD) was constructed for Qingyuan Experimental Station of Forest Ecology, Institute of Applied Ecology, Chinese Academy of Sciences. Furthermore, REFD was also quantitatively evaluated for different forest types using the optimal distance method. Using the indices about diversity, productivity, stand structure, ecological function, stand health level, etc, of forest, with the broadleaf-Pinus koraiensis forest as target forest, REFD for eight existing forest types at Qingyuan Experimental Station of Forest Ecology were evaluated via the optimal distance method. The results show that REFD of the old growth forest and the broadleaf mixed forest is 0.317 8 and 0.398 9 respectively, which is the minimum among the eight forest types and with the nearest distance to the target forest. REFD for Mongolian oak forest, Fraxinus mandshurica forest, F. rhynchophylla forest and Juglans mandshuria forest is 0.426 2, 0.487, 0.498 3 and 0.501 6 respectively. However, REFD for Korean pine plantation and larch plantation is 0.635 8 and 0.686 4 respectively, which is the maximum among the eight forest types. These findings imply that the distance between the plantations and the target forest in the mountain regions of eastern Liaoning Province is the farthest.

Development strategy of grassland animal husbandry in China

ZHOU Dao-Wei, SUN Hai-Xia

2010, 18(2): 393-398. doi: 10.3724/SP.J.1011.2010.00393

Abstract(1829) PDF(1914)

Abstract:
It is hardly unlikely that gross grain consumption in China will exceed 600 million ton (including increases of 40 million ton in grain ration, 31 million in feed-grain for the production of 12 million ton of pork, chicken, egg and milk) in 30 years even when the population reaches 1.5 billion. Changes in meat food production pattern, namely decreasing in pork production and inverse changes in beef and mutton production, offer potential saving of 30 billion kg grain. Furthermore, improving feed rate by 5%～6% for grazing livestock and replacing pork with excessive beef and mutton production will result in saving of 20 billion kg grain. The two combined will therefore result in saving 50 billion kg of grain. This paper analyzes the methods for developing grassland animal husbandry, saving grain consumption and guaranteeing meat supply. Milk production mode is suggested by replacing 16.7 million dairy cows with 100 million dairy goats. This mode could meet milk requirement of rural population with an equal national milk consumption level to that of the developed countries. To double the quantity of herbivores livestock in the country, crop straws, win-ter fallow in South China, sparse forestlands and intrazonal habitats of grasslands should be sufficiently exploited with improved utilization efficiencies of grassland and various resources above normal levels. Developing legume forage for improving protein lev-els in roughage and modifying livestock distribution patterns are the core practical issues of grassland animal husbandry.

Development tendency of agricultural water structure in China

WANG Yu-Bao1, 2, WU Pu-Te, ZHAO Xi-Ning, LI Jia-Lin

2010, 18(2): 399-404. doi: 10.3724/SP.J.1011.2010.00399

Abstract(2119) PDF(3366)

Abstract:
Agricultural water structure (AWS) influences the efficiency and potential benefits of water use. The evolution history of AWS in China was analyzed in this study using agricultural water consumption data in China for 1949～2006. Agricultural water use level for 1949～2050 was divided into four periods of primary use, low efficiency use, reasonable use and high efficiency use in accordance with the evolution history and tendency of future AWS. The analysis shows that AWS in China is improving as the proportion of agricultural water consumption to total water use is steadily decreasing. The level of water use is increasingly harmonized among agriculture, forestry, herding and fishing as well as water consumption by grain crops, cash crops and grazing grass. The concept of economic agricultural water consumption is advanced, emphasizing water-saving via optimized AWS. A case study of North China illustrates that AWS optimization increases water use benefits and saves 199.94×108 m³ water per year. Integrative water-saving measures along with optimized AWS saves an additional 29.97×108 m³ water per year over water-saving measures alone.

Characteristics of agricultural circular economy in the Three Gorges Reservoir Region of Chongqing- A case study of the ecological agriculture pattern of "pig-biogas-orange"

LUO Xue-Feng, XIONG Wei, YANG Can-Fang, XIE Juan, LEI Shi-Mei

2010, 18(2): 405-409. doi: 10.3724/SP.J.1011.2010.00405

Abstract(2200) PDF(1590)

Abstract:
Based on agriculture development in the region, this study analyzes the conditions and necessity for agricultural circular economy in the Three Gorges Reservoir Region of Chongqing from the rural economic development, environment protection and agricultural pollution control. And the advantages of resources, technology and policy for the agricultural circular economy in the region was discussed. The successful "pig-biogas-orange" pattern of agricultural circular economy established on the industrial bases of orange cultivation, pig breeding, and biogas production in the Three Gorges Reservoir Region is fully elucidated. The pattern is practiced in more than 10 counties in a total area of 6 700 hectares of main citrus plantation in the counties of Jiangjin, Changshou, Kai, etc. It has an average income increase of 120 million Yuan and over 20 000 employments in the region. The agricultural circular economy pattern obviously also enhances the water quality of Three Gorges Reservoir and protects the environment of the region. Further strategies for promoting agricultural circular economy in the Three Gorges Reservoir Region are therefore recommended.

Ecological regionalization of wheat cultivation in Shanxi Province of China

ZHANG Li-Sheng, WEN Hui-Qin, CHENG Tian-Ling, LI Sheng-Hai, JIA Yong-Shu

2010, 18(2): 410-415. doi: 10.3724/SP.J.1011.2010.00410

Abstract(2498) PDF(2274)

Abstract:
Using 20-year climatic data from 62 weather stations in Shanxi Province, regression equations were established for annual temperature with latitude and elevation as the explaining variables, and then for January average temperature with latitude and elevation as the explaining variables via binary regression and correlation analysis in Data Processing System (DPS). Based on the regression equations, four main ecological regions were obtained for wheat cultivation in Shanxi Province. The eco-regions are: spring wheat (S) region, strong winter wheat (SW) region, winter wheat (W) region and weak winter wheat (WW) region. Then by factoring spatial overlaps of the different wheat regions, eight sub-ecological regions were identified for wheat cultivation. These are: northern areas of S; mixture areas of S and SW; mixture areas of S, SW and W; mixture areas of S, SW, W and WW; areas of SW; mixture areas of SW and W; mixture areas of SW, W and WW; and mixture areas of W and WW. The result of the study is vital for wheat breeding, new variety introduction and cultivation in Shanxi province.

Spatial variation in land use and landscape pattern-A case study of Ji County of Tianjin City

SHI Yu-Sheng, XIAO Jie-Ying, SHEN Yan-Jun, LIU Min

2010, 18(2): 416-421. doi: 10.3724/SP.J.1011.2010.00416

Abstract(2074) PDF(3742)

Abstract:
Variation in landscape could indicate change in regional ecological functions and processes. Spatial heterogeneity of landscape does not only reflect spatial variations in landscape processes, but also variation in the driving factors. Therefore, it is an essential pre-requisite for understanding the dynamics and characteristics of the landscape patterns in a given region. Using Ji County of Tianjin City as a case, this study analyzed temporal and spatial changes in land use and landscape pattern. Landsat remote sensing images were used in the study to determine spatial variations in the landscape and the related driving factors. For the period of study, there is fragmented trend in landscape change with varying and intricate landscape forms. There also exists an increasing diversity index, implying the development of regional landscape to diversification and evenness with time. Main land use change trend is from cropland to woodland, grassland or built-up land. The spatial distribution and change of 2 landscape pattern index - Number of Patches (NP) and Largest Patch Index (LPI) analyzed at 3 km by 3 km grid-cell size, show obvious spatial variations in landscape structure. The central and south regions of the study area are increasingly more fragmented than the north and the Natural Reserve where human activity is limited. Statistical analysis indicates that the spatial variations are mainly driven by spatial differences in geomorphology, population density, road network, etc. Human activity and economic development are the primary driving factors of change in the landscape pattern.

Ecological carrying capacity assessment of large-scale open coal mines in loess zones- A case study of Antaibao Opencast Mine in Pingshuo

CUI Xu, GE Yuan-Ying, BAI Zhong-Ke

2010, 18(2): 422-427. doi: 10.3724/SP.J.1011.2010.00422

Abstract(1891) PDF(1481)

Abstract:
Change in Ecological Carrying Capacity (ECC) in open coal mines is closely related with pollution control, land reclamation and ecology rehabilitation measures. Based on connotation and hierarchical characteristics of ecological carrying capabilities of mines (MAECC), a quantified assessment method of MAECC involving ecosystem resilience, resource and environment carrying capacity, and ecosystem stress is put forward. The unified ecological carrying capacity appraisal method proposed by Gao Jixi, combined with an established index assessment system with the index weight decided by AHP, was used for static and dynamic appraisal of the MAECC. The ecosystem resilience of Antaibao Opencast Mine ecosystem in Pingshuo is 46.836 for 2007 - which is described as moderately stable. Environment carrying capability is 47.127 - which is medium load bearing. The ecosystem stress is 1.396 - which is excess load bearing. Based on the change dynamics, there is a drastic change in ecosystem resilience. This shows that the stability of the ecosystem in mining areas is weak with obvious frail characteristics. The change in ecosystem stress index implies a greater impact of ecosystem stress on the resilience of the ecosystem and the carrying capacity of mine area resource and environ-ment before 1999. This impact has gradually weakened since 1999. This conclusion is also true for the trend of ecosystem resilience, resource and environment carrying capacity of mining area for 1987～2007. The resilience of the ecosystem began rising after 1997 along with a significant increase in the carrying capacity of the resources and the environment after 1999.

Eco-efficiency of circular economy development of Guangdong Province

QIN Zhong, WANG Jian-Wu, ZHANG Jia-En, LUO Shi-Ming, XU Hua-Qin, YE Yan-Qiong

2010, 18(2): 428-433. doi: 10.3724/SP.J.1011.2010.00428

Abstract(2565) PDF(2075)

Abstract:
On the base of the essentials of circular economy and connotations of eco-efficiency, an eco-efficiency index system for assessing the circular economy of Guangdong Province was established with reference to local and international research. By using the established index system, variations in the economy and eco-efficiency for the period from l990 to 2007 were analyzed. The results indicate that Guangdong provincial GDP achieves a high and rapid growth during the last 18 years. Concurrent eco-efficiency indicators and labor productivity display increasing trends for especially the eco-efficiency of total water consumption and construct land. Average annual growth rate of the two indicators respectively reach 21.29% and 17.28%, both are lower than that for GDP. Prediction results from transformed human-environment equation (IPAT) reveal that under present economic growth, strategic objectives for the augmentation of Guangdong provincial economy could be realized by 2015. However, increase in energy consumption and environment load may induce high pressure on the eco-environment.

A review on the development and application of nano-scale amendment in remediating polluted soils and waters

WANG Meng, CHEN Shi-Bao, LI Na, MA Yi-Bing

2010, 18(2): 434-439. doi: 10.3724/SP.J.1011.2010.00434

Abstract(3837) PDF(5097)

Abstract:
Development of high-efficient and environment-friendly amendments and their potential application in remediating polluted soils and waters have received a considerable attention in the last decade. With the fast development of environmental molecular material science and engineering, the application of nano-scale materials in remediating polluted soils and waters has gained even more attention in recent times. The unique characteristics of enhanced huge planar surfaces of nano-particles are expected to enable and increase interface reactions. Such reactions include surface and specific adsorption of heavy metallic ions and organic pollutants by asorbents, strengthened oxidation-reduction reactions on planar surfaces, etc. It is predicted that nano-scale amendments will in-creasingly be important in remediating polluted soils and waters. This review therefore highlights current research on application of nano-scale amendments on remediation of polluted soils and waters. Various perspectives of nano-particles with regard to environ-mental cleaning and potential environmental and health impacts associated with the nano-particle application are also presented. The work thus provides vital information for the future development of this field of science.

Review of indexes for evaluating plant response to elevated near-surface ozone concentration

LIANG Jing, ZENG Qing, ZHU Jian-Guo, XIE Zu-Bin, LIU Gang, TANG Hao-Ye

2010, 18(2): 440-445. doi: 10.3724/SP.J.1011.2010.00440

Abstract(3494) PDF(5041)

Abstract:
Elevated near-surface ozone is one of the most important air pollutants with a range of negative impact on plants, including plant morphology, photosynthesis, growth, material production and distribution, antioxidant property, biomass and yield component, etc. arising a considerable scientific and public concern. At present, ambient ozone concentration is increasing at the rate of 0.3%～2% per year due to increased human activity and rapid industrial development. Accurate assessment of elevated tropospheric ozone impact on plants is an absolute necessity. This paper reviews the evaluation methods (including relationships based on concentration, dosage and flux) of the effect of elevated tropospheric ozone concentration on plants. The merits and demerits of the evaluation methods are also compared and summarized. This review may lay scientific basis for establishing ozone concentration evaluation index system that is adaptable to China's geographic and agricultural characteristics.

Review of forestry decision support system

HANG Yan-Xiu, LIN Yong, KANG Yue-Lan, YANG Yong-Hui, PAN Yu-Zhou

2010, 18(2): 446-452. doi: 10.3724/SP.J.1011.2010.00446

Abstract(2096) PDF(1808)

Abstract:
With the rapid development of ecology and increased concern on environment and resources, forest management have shifted from single-target (such as timber production, ecological shelter, biodiversity conservation) traditional forest management to multi-target biodiversity-oriented forest management for sustainable ecology, economy and society. Given hierarchical complexities of forest system and multi-target forest management, forestry decision support system (DDS) has emerged as an important tool to determine management objectives, design scenarios, assess climate change and management plan. The core components of forest management DDS are habitat suitability and forest dynamics models used to assess the impact of management scenarios and climate change on forest functions, services and especially biodiversity conservation. In this paper, the development of forest dynamics and habitat suitability models are discussed, followed by a forestry DSS review with a particular focus on the current state and problems. Finally, the future development of China's forestry DSS are summarized.

2010 Vol. 18, No. 2