Effect of simulated acid rain on the growth of soybean

Soybean seedlings (Glycine max) grown in a glasshouse were exposed to simulated acid rain using a solution of deionized water containing sulfate, nitrate and chloride in concentrations and proportions equivalent to those in ambient rain water. Plants were subjected to acid rain treatment twice a week during the growing season, for a 1 hr period at a rate of 5 mm hr^?1. When the acid rain was below pH 3.0, visible symptoms developed in the young trifoliate leaves. However, at a pH above 3.0 there was no evidence of visible leaf injury; also tissue dry weights and leaf areas were not affected even after 7 weeks of exposure. The number of root nodules in plants exposed to acid rain at pH 4.0 tended to be higher than those of control plants maintained at pH 5.6, but decreased subsequently with decreasing pH. Based on our results current ambient levels of rain acidity in Japan should not have an adverse impact on seedling growth in soybean.     

Effects of acidity of the water culture solution on uptake of nutrients by the root of Japanese cedar (Cryptomeria japonica) and Japanese cypress (Chamaecyparis obtusa)

The condition around coniferous trees in the soil is becoming gradually acidic when acid rain falls continuously. Nutrient uptake by the roots of coniferous trees could be affected in such environmental change of root zone. The experiments of water culture of coniferous seedlings in modified systems were carried out using (2-and, 3-year-old) of Japanese cedar(Cryptomeria japonica) and, Japanese cypress(Chamaecyparis obtusa) that are the typical Japanese forest trees. Nine major nutrients such as Na⁺, NH₄ ⁺, K⁺, Ca²⁺, Mg²⁺, Cl^?, NO₃ ^?, PO₄ ^3?, and SO₄ ^2?, were given in the water culture solution and growth of trees was observed for two years. The aspects of nutrient uptake by these seedlings and the effects of acidity in culture solution were observed. The following results were obtained. 1) Japanese cedar of 50% and Japanese cypress of 30 % in tested seedlings could live for two years. 2) All Japanese cedar and cypress that started in the strong acidic condition ( pH=3.0) were dead within three months. 3) The minimum pH value in the acidic condition is estimated as 3.2 for these coniferous seedlings, and it means that they can live at least for two years in this condition. 4) The seasonal pattern of the uptake of nitrogen nutrient by Japanese cedar was determined.     

Soil Acidification and Decline of Trees in Forests Within the Precincts of Shrines in Kyoto (Japan)

The historical Japanese city of Kyoto boasts a great many old Buddhist temples and Shinto shrines, many of which are surrounded by sizable forests that have long been preserved as sacred forests. However, acidic deposition has been fallen on the forests in Kyoto for many years. For this study, we conducted soil surveys and investigated the extent of decline of the trees in two Shinto shrines as historic monuments of ancient Kyoto. Our study revealed clear decline in two key tree species (Cryptomeria japonica (Japanese cedar) and Chamaecyparis obtusa (Japanese cypress)) in both shrines, with some trees showing signs of mortality. The soil was acidic, with an average pH of 4.35. Nutrient salt content too was only about one tenth the national average, with exchangeable Ca (0.52 cequiv./kg) and Mg (0.23 cequiv./kg) for 0?C20 cm surface soil. The (Ca+Mg+K)/Al molar ratios were also very low, with 80% of all soil samples having a ratio of 10 or below. Such soil conditions are thought to hamper the sound growth of both Japanese cedar and Japanese cypress, and soil acidification is one of the most likely causes of the decline of temple and shrine forests in Kyoto.     

Impact of Simulated Acid Rain on Growth and Yield of Two Cultivars of Wheat

The present study reports the results of a field-basedexperiment conducted to assess the effect of simulated acid rain(SAR) of different pH i.e. 5.6 (control), 5.0, 4.5, 4.0 and 3.0on two cultivars of wheat (Triticum aestivum, Malviya 213(M213) and Sonalika). Shoot and root lengths significantlydeclined at pH 3.0 in both varieties. Leaf area declined at pH4.0 and 3.0 in M213 at both ages and at 75 days in Sonalika.Total biomass of 75 days plants declined significantly at pH range4.5–3.0 in M213 and at pH 4.0 and 3.0 in Sonalika. Netassimilation rate (NAR) declined significantly at pH 3.0 inboth varieties. Compared to control, yield of M213 showedsignificant reductions at pH 4.0 and 3.0, whereas Sonalikaresponded negatively at pH 3.0. The study showed that acid rainhas a significant negative effect on wheat plant performance.     

Soil Solution Chemistry in Forests with Granite Bedrock in Japan

Soil solutions were taken from three forest areas with granite bedrock in Japan (Abukuma, Tateyama and Hiroshima) to investigate pH values, forms of Al and the molar BC/Al ratios. In each area, 10 sites were chosen for study. At each site, a target tree was selected, and two soil solution samples were taken from 10 cm depth at points 10 cm and 100 cm from the trunk of the tree to evaluate the effects of stemflow and throughfall on soil solution chemistry. Values of pH of samples taken 10 cm from the trunks (referred to as S samples) and 100 cm from the trunks (referred to as T samples) ranged from 3.66 to 6.52 and from 4.55 to 6.48, respectively. For Japanese cedar (Cryptomeria japonica) and Japanese cypress (Chamaecyparis obtusa) trees, S samples showed lower pH than T samples, whereas the inverse relation was observed for broadleaf trees. In the Abukuma and Tateyama areas, the concentrations of monomeric Al (Al_m) were mostly below 30 µmol L^?1. In the Hiroshima area, however, extremely high Al_m concentrations (up to 293 µmol L^?1) were observed at some sites. The molar ratio of BC (= Ca + Mg + K) to inorganic monomeric Al was higher than 1 for all samples, except for an S sample from the Hiroshima area having a ratio of 0.72.     

Copper Complexing Capacity of Throughfall and its Environmental Effect

Copper complexing capacity (CuCC) and conditional stability constants (K′) of the complexes were analyzed for throughfall collected in Japanese cypress (Chamaecyparis obtusa), Japanese cedar (Cryptomeria japonica), Japanese red pine (Pinus densiflora), and bamboo-leafed oak (Quercus myrsinaefolia) groves (soil: light-colored Andosol) located in a suburban area of Japan (Tsukuba, Ibaraki). The method was based on the titration of throughfall samples with standard Cu²⁺ solution using a Cu²⁺-selective electrode, followed by data analysis using the van den Berg-Ruzic plot (1:1-type complexes were assumed). CuCCs (μM) obtained were in the order: C. obtusa (7.1± 5.1) ≤ C. japonica (9.6± 5.6) < P. densiflora (15.9± 16.4) < Q. myrsinaefolia (29.3± 23.9). In addition, ratios of CuCC/DOC (μmol mg^?1 C) were in the order: C. obtusa (0.42± 0.26) ? C. japonica (0.42± 0.22) ? P. densiflora (0.55± 0.38) ? Q. myrsinaefolia (2.0± 1.3), and the ratios in the throughfall of Q. myrsinaefolia were about 4 times higher than those in the throughfall of other tree species. On the other hand, log K′ was almost the same for all tree species (about 5.5). CuCC and also CuCC/DOC increased in spring and autumn, and decreased in summer and winter, indicating that organic matter with metal complexing capacity, released from trees, changed seasonally not only in quantity but also in quality. Since throughfall accelerated the leaching of metals from grove soil and artificial material (e.g. alloy) placed in the groves, it may be involved in the behavior of metals in the plant-soil ecosystem.     

Impacts of Acid Rain on Base Cations,Aluminum, and Acidity Development in Highly Weathered Soils of Thailand

The impacts of simulated acid rain on leachability of major plant nutrients, toxic element [aluminum (Al)], and acidity development in highly weathered tropical soils of Thailand were studied. Leaching experiments were conducted on soil columns with acidic solutions of pH 5.0, 4.0, 3.0, 2.0, and with water of pH 7.0 as a control treatment. Leaching losses of base cations from all soils increased with the decrease in pH associated with simulated acid rain (SAR) additions, and were found to be quite high under SAR with pH 2.0. The leaching removal of these cations was lesser at pH 3.0, 4.0, and 5.0 but greater than that in pH 7.0. The leaching of base cation from the soils depended not only on acid rain pH but also on soil properties, especially cation exchange capacity, soil texture, and initial base content. The significant losses of major plant nutrients [such as potassium (K⁺), calcium (Ca²⁺), and magnesium (Mg²⁺)] from the plant root zone over extended periods could cause nutrient imbalance and lower soil productivity.     

A two-year experience on 15N-urea fertilization of a corn field amended with fly ash

Soybean seedlings (Glycine max) were exposed to simulated acid rain containing sulfate ion only or a mixture of sulfate, nitrate and chloride anions, using a continuous rain generating system in a side opened glasshouse. Plants were subjected to acid rain treatment twice a week, for a 1 or 3 hr period at a rate of 2.2 or 5.0 mm hr^?1, respectively. Dry seed yield in plants treated with simulated acid rain at pH 2.0, in the three of 4 experiments conducted over a 3 yr period, was significantly less than that at pH 3.0 or higher. Simulated acid rain treatment at pH 3.0 or higher did not significantly affect yield compared to pH 5.6; however, plants exposed to simulated acid rain at pH 4.0 tended to yield more than those treated with pH 5.6 rain. Based on the current 3 years of research in which results from 4 experiments were combined, rain acidity at current levels in Japan would not directly affect seed production of selected cultivars of soybean.     

Solution pH influences on growth and mineral element concentrations of ‘Waimanalo’ papaya seedlings

Two sand culture experiments were conducted to determine the influence of substrate pH on ‘Waimanalo’ papaya seedling growth, morphology, and mineral element nutrition. The seedlings were grown in clear, plastic tubes 7 cm in diameter and 21 cm in height with the rooting substrate being silica sand. The substrate was drenched daily with a complete nutrient solution. The solution was adjusted to target the pH at 3.0, 4.0, 5.0, 6.0, 7.0, 8.0, or 9.0. Direct seeded plants were used in the first study and plants were harvested after 9.5 weeks of growth. Transplants were used in the second study, and plants were harvested after four weeks of growth. Dry mass of plants was relatively unaffected by substrate pH within the range of 4.0 to 9.0. In both studies, however, dry mass of plants receiving a target pH of 3.0 was reduced compared to those plants receiving the other pH level nutrient solutions. This response pattern was similar for other characteristics such as canopy/root ratio, total root length, root extension rate, lateral root thickness, and root density. Various root characteristics were decreased more by pH of 3.0 than other canopy characteristics. Unit leaf area per unit root length was greatly increased for plants receiving the pH 3.0 nutrient solution, indicating increased susceptibility to drought stress. Root accumulation of manganese (Mn), zinc (Zn), and iron (Fe) was markedly greater than the canopy accumulation. The influence of pH on mineral element concentrations was similar for roots and canopy for all elements except magnesium (Mg). Canopy tissue, but not root tissue, accumulated more Mg at lower pH than higher pHs. The greatest influence of pH on mineral element concentration was for iron (Fe). The concentration of Fe at pH of 3.0 was almost three times the concentration at the other pHs. No visual symptoms of mineral deficiency and/or toxicity were evident. These results indicate that the growth and morphology of papaya seedlings provided with complete nutrient solution are relatively unaffected by pH within the range of 4.0 to 9.0.     

Simulated acid rain: Effects on leaf quality and yield of broadleaf tobacco

Simulated acid rains of pH 5.6, 4.0, 3.5, 3.0, 2.5, or 2.0 were applied to leaves of broadleaf tobacco twice per week for 1, 2, 3, 4, or 5 weeks. Only those plants receiving rain of pH 2.0 were injured and, among those, the plants receiving fewer applications had less severe injury. Foliar symptoms resembled weather fleck (O₃ injury) at first, but become distinguishable from them with time.     

CO2 and water vapor fluxes above a subtropical mountain cloud forest—The effect of light conditions and fog

From the 4 August through 22 September 2006, the turbulent vertical fluxes of CO₂ and water vapor were measured above a cypress tree (Chamaecyparis species) plantation within the subtropical mountain cloud forest range of NE Taiwan. The study site is characterized by a high frequency of orographic fog. During the day, humid air is transported uphill and causes condensation and fog as it cools. CO₂ and water vapor fluxes were measured on two instrumented micrometeorological towers aligned along the valley axis. Despite the large reduction of solar radiation during foggy conditions by 64% as compared to clear situations, the reduction of the CO₂ uptake is rather small at tower 1, for which Chamaecyparis is the dominating species within the footprint area. The Chamaecyparis species perform well under these extreme conditions of reduced light. A large section of the footprint area of tower 2 is vegetated with Cryptomeria japonica. CO₂ flux comparison at both towers during foggy and non-foggy conditions, and direct tower-totower comparisons showed a significant difference statistically in the CO₂ fluxes. While the photosynthesis rate of Chamaecyparis was hardly reduced during fog that of Cryptomeria japonica decreased strongly during foggy conditions. Cryptomeria japonica is less well adapted to the low light conditions. The net water vapor flux was dominated by evaporation of intercepted fog. Transpiration contributed only little to the water vapor flux during the 7-week experimental field study.     

酸雨对木芙蓉幼苗光合作用及抗氧化酶活性的影响

以pH 5.6为对照,采用pH 4.0、pH 3.0、pH 2.0强度的酸雨对2年生木芙蓉进行人工模拟胁迫,研究酸雨胁迫对木芙蓉叶片可见伤害、质膜透性(Membrane Permeability,MP)、叶绿素(Chlorophyll,Chl)含量、抗氧化酶系统及气体交换参数的影响.研究结果表明,pH 2.0和pH 3...     

Changes in soil organic carbon and nitrogen in an area of Andisol following afforestation with Japanese cedar and Hinoki cypress

Abstract

To determine the rates of increase in C and N stocks in the soil and organic layers following afforestation in Andisols, we measured C and N densities in the organic and soil layers at depths of 0–5, 5–15 and 15–30?cm, together with a chronosequence analysis of 4-year-old, 14-year-old and 23-year-old Japanese cedar (Cryptomeria japonica) and 4-year-old, 12-year-old and 25-year-old Hinoki cypress (Chamaecyparis obtusa) plantations. The short-term changes in C and N were confirmed by repeated sampling 5?years after the first sampling. Tree growth, biomass accumulation and organic layers were much greater in Japanese cedar than in Hinoki cypress plantations. Soil C density (kg?m^?3) increased and bulk density decreased with stand age in the surface layer (0–5?cm). The average soil C accumulation rate was 22.9?g?C?m^?2?year^?1 for Japanese cedar and 21.1?g?C?m^?2?year^?1 for Hinoki cypress. Repeated sampling showed that the rate of increase in C in the surface soil was relatively slow in young stands and that soil C density (kg?m^?3) in the subsurface soil did not change over a 5-year period. Although N accumulated in the tree biomass and organic layers, the soil N density (kg?m^?3) did not change after afforestation. Although the andic properties of the soil and differences in the planted species did not influence the rate of increase in soil C, soil C density was expected to increase to a concentration greater than 80?g?kg^?1, possibly because of the large C accumulation capacity of Andisols.     

Soil NO3-N production and immobilization affected by NH4-N,glycine, and NO3-N addition in different forest types in Shikoku,southern Japan

The characteristics of production and immobilization of NO₃-N were evaluated for soils from four forest types in Kochi Prefecture, southern Japan. Net NO₃-N production during the laboratory incubation differed among the soils from the four forest types, being high under Japanese cedar (Cryptomeria japonica D. Don) and deciduous hardwood, and negligible under Japanese red pine (Pinus densiflora Sieb. et Zucc.) and hinoki cypress (Chamaecyparis obtusa Endlicher). Nitrification under Japanese cedar and hardwood was mainly autotrophic based on the fact that nitrification was inhibited by acetylene or nitrapyrin, and was not affected by cycloheximide. Net NO₃-N production in these soils increased by glycine addition, but did not increase appreciably by NH₄Cl addition. However, net NO₃-N production increased after the addition of CaCO₃ with NH₄Cl. These results indicate that the substrate of nitrification is NH₃ rather than NH₄ ⁺ and that the added NH₄ ⁺ is not utilized by nitrifiers at low pH values. With NO₃-N addition to soils under red pine and hinoki cypress, immobilization of NO₃-N was observed followed by rapid production of NH₄-N. These findings suggested that mobile NO₃-N can be converted to less mobile NH₄-N by the activities of soil microorganisms. This microbial process may play an important role in retaining nitrogen within forest ecosystems where the potential of N loss is high due to the high precipitation in the area.     

低肥力土壤施用氮磷钾肥影响柏木家系根系发育和养分吸收对钙肥的响应

  【目的】  探讨柏木(Cupressus funebris Endl)家系在不同养分条件下根系发育和营养吸收对钙添加的响应,为提高柏木苗木质量和林木生产力及造林地选择提供理论依据。  【方法】  以柏木5个家系的1年生幼苗为材料,分别在施3 g/kg NPK肥和未施NPK肥两小区内,设置施CaSO₄ 0、3和6 g/kg (依次记为Ca₀、Ca₃和Ca₆) 3 个水平,分析柏木家系生长与根系形态及氮磷钙吸收量对钙肥添加的响应。  【结果】  在施 3 g/kg NPK肥的小区中,添加钙对柏木的苗高、干物质量积累和氮磷吸收量影响不显著,抑制了D2和D3径级根系的发育;柏木钙吸收量在Ca₆处理下最高,比Ca₀处理提高73.86%;柏木苗高、干物质量及氮磷钙素的吸收量在家系间差异显著,T2家系表现最好。在未施NPK肥的小区中,Ca₃处理明显提高了柏木的苗高、根干物质量和茎干物质量,增加了磷和钙的吸收量,分别比Ca₀处理高出9.15%、19.85%、16.67%、27.46%和44.02%;Ca₆处理提高了钙吸收量,比Ca₀处理高出39.95%,但抑制柏木幼苗苗高和D1~D4径级根系的发育。不论施NPK肥与否,家系与钙处理对柏木的株高和根干物质量存在着显著的互作效应。  【结论】  在低肥力土壤上,施用氮磷钾肥会降低钙肥对柏木苗生长和养分吸收的影响,应选择优良家系进行育苗造林,不需要增加钙肥;在不施用氮磷钾肥时,应添加少量钙肥(CaSO₄ 3 g/kg),以促进苗木对钙和磷的吸收。     

Mycorrhizal alleviation of acid soil stress in the sweet potato (Ipomoea batatas)

It is not known why sweet potato (Ipomoea batatas) cultivated in tropical regions tolerates acid soil. Here, we report the involvement of mycorrhizal symbiosis in this tolerance. Plants were grown in root-boxes filled with either acidic soil (pH 4.2) or the same soil amended with lime (pH 5.2) for 30 d in a growth chamber. In the inoculated treatments, the percentage of root length colonized by Gigaspora margarita was not affected by soil pH (23±9% at pH 4.2 vs. 30±12% at pH 5.2). The root and shoot dry weights of the non-mycorrhizal plants at pH 4.2 were 27 and 35%, respectively, of those at pH 5.2. The root and shoot dry weights of the mycorrhizal plants at pH 4.2 were 70 and 51% of those at pH 5.2. Growth promotion in mycorrhizal plants was significant only at pH 4.2 (2-fold increase in whole plant dry weight), but not at pH 5.2. As a result, no significant difference was detected in whole plant dry weight between the mycorrhizal plants at pH 4.2 and non-mycorrhizal plants at pH 5.2. The mycorrhizal plants at pH 4.2 showed reduced toxic symptoms of Mn (brown specks on mature leaves) and Al (poor root growth) compared to non-mycorrhizal ones, but tissue concentrations of P, K and Ca did not increase in mycorrhizal plants. We assume that the mycorrhizal colonization can reduce toxic effects of those elements while the exact mechanisms should be further investigated.     

Influences of feedstock and pyrolysis temperature on the nitrate adsorption of biochar

Biochar (BC), charcoal produced through the pyrolysis of biomass, is reported to adsorb dissolved nitrate-nitrogen (NO₃-N). The NO₃-N adsorption properties of BC differ depending on the feedstock and the pyrolysis conditions, and the influences have not been systematically clarified. Therefore, we evaluated the dependence of feedstock and pyrolysis temperature on the NO₃-N adsorption properties of BC. Wood chips [Japanese cedar [Cryptomeria japonica] (CE) and Japanese cypress [Chamaecyparis obtusa] (CY)], moso bamboo [Phyllostachys edulis] chips (MB), rice [Oryza sativa] husks (RH), sugarcane [Saccharum officinarum] bagasse (SB), poultry manure (PM) and domestic wastewater sludge (WS) were air-dried and heated in a batch-type carbonization furnace at pyrolysis temperatures of 400, 600 and 800°C, with a hold time of 2 h. Among the BC produced from each feedstock, the one produced at 800°C had the greatest NO₃-N adsorption. The NO₃-N adsorption by BC produced from wood-based biomass at 800°C was significantly higher than that of the BC produced from non-wood-based biomass at 800°C. Therefore, BC made from wood-based biomass at higher temperature can be adequate as soil amendment material for adsorption of NO₃-N.     

Salinity effects on annual bedding plants in a peat‐perlite medium and solution culture

Annual vinca (Catharanthus roseus (L.) G. Don ‘Pink Carpet'), geranium (Pelargonium x hortorum L. H. Bailey ‘Jackpot'), and marigold (Tagetes erecta L. ‘First Lady') were grown in a sphagnum peat moss and perlite medium. Plants were irrigated with solutions of different salinity by the addition of 0.0, 1.0, 2.0, 4.0, and 8.0 g/1 of a NaCl and CaCl₂ mixture resulting in solution electrical conductivity (EC) values of about 1.3, 3.0, 4.5, 7.9, and 13.9 ds/m, respectively. In another experiment marigold and geranium were grown in solution culture containing the same salt mixture at 0.0, 1.0, 4.0, and 8.0 g/1 with EC values of 1.4, 3.0, 7.4, and 12.5 ds/m, respectively. All species showed some salinity tolerance up to 2.0 g/1 in peat‐perlite and 1.0 g/1 in solution culture as growth reductions were below 10% and no foliar injury occurred. Foliar injury occurred on marigold and geranium, but not annual vinca, at 4.0 and 8.0 g/1 in both growing media. On a concentration basis, recently mature leaves sampled from marigold grown in peat‐perlite contained more chloride (Cl) but less sodium (Na) than geranium and annual vinca. However results of the solution culture experiment showed that, with the exception of 1.0 g/1 treatment, geranium and marigold plants absorbed the same amount of Cl and Na when content was expressed on a mg/g dry weight basis. The low Na concentration in marigold leaves was a reflection of restricted translocation of Na from the roots to the shoots.     

Growth and nutrient content of poinsettia (Euphorbia pulcherrima Willd. ex Klotz) in a soilless growth medium containing sewage sludge pellet fertilizer

The effectiveness sewage sludge pellet fertilizer (SPF) as a nutrient source for containerized poinsettia (Euphorbia pulcherrima Willd. ex Klotz) was determined by comparing the growth and nutrient element content of ‘Eckespoint Celebrate 2’ plants grown with SPF in the growth medium versus plants fertilized with conventional water‐soluble fertilizer (WSF). Plants were grown in 1.6‐L pots of soilless growth medium with SPF incorporated at planting at the rates of 1.0, 1.5, 2.0, 2.5, or 3.0 gm nitrogen (N) pot^‐1. Sludge pellet fertilizer plants received either no WSF or a dilute solution of 2ON‐4.3P‐16.6 potassium (K) (50 mg N L^‐1) twice a week. Control plants had no SPF and were fertilized with WSF at 250 mg N L^‐1 twice a week. At the end of the experiment plant growth measurements were made, leaves were analyzed for their nutrient element content, and growth medium was analyzed for pH and electrical conductivity (EC). Plants grown with SPF, with or without dilute WSF, were of commercially acceptable quality, but were somewhat smaller than the control plants. Plants growing with SPF alone and no WSF developed a chlorosis suggestive of N deficiency which was largely prevented by the application of WSF. Foliar analysis revealed that N in the leaves of plants receiving SPF alone was at the critical level for deficiency established for poinsettia. In treatments where dilute WSF was applied, the N content of the leaves was within the normal range. The foliar levels of all other nutrients fell within the normal ranges established for poinsettia in all SPF treatments. In addition to N deficiency, high growth medium EC at planting and low EC by the end of the experiment might also explain the inhibition of growth with SPF versus the WSF control. Results of this study suggest that poinsettia can be successfully grown using SPF as the sole source of nutrition, however the best growth is possible only when a dilute solution of N‐containing WSF is applied on a regular basis.     

不同调控措施对葡萄冬剪枝条堆肥效果的影响

以葡萄冬剪枝条为原料,以饼肥、尿素、碳酸氢铵为氮源,EM菌、生物菌肥发酵剂、秸秆发酵剂为接种外源微生物,设置9个处理,进行为期60天的堆肥,研究了不同调控措施堆体温度、堆肥基质物理性质、pH值、堆体腐熟程度和养分含量的变化。研究结果表明:葡萄枝屑添加不同氮源对堆温影响较大,添加饼肥的处理增加了堆体50 ℃以上高温的持续时间,且处理1（添加饼肥、C/N 20∶1、接种EM菌发酵剂）高温维持时间最长,为10天。堆肥结束时,各处理容重、总孔隙度、通气孔隙度和持水孔隙度都有所增加,且都在理想基质范围内,各处理pH值变化基本一致,均是先升高后降低;除处理6（添加碳酸氢铵、C/N 30∶1、接种生物菌肥发酵剂）外,其他处理种子发芽指数均在1以上,各处理种子发芽指数都可满足植物的生长;处理1全量氮、磷和钾含量相对较高,分别为3.160%、0.959%和1.880%,实际应用价值更大。综合考虑,添加饼肥、调整碳氮比为20∶1、接种EM菌发酵剂,为最佳葡萄枝屑基质化发酵配比。