首页 | 本学科首页   官方微博 | 高级检索  
相似文献
 共查询到20条相似文献,搜索用时 31 毫秒
1.
On golf courses planted to creeping bentgrass, invasion of annual bluegrass is a constant concern. To analyze if nitrogen fertilization manipulation could bias growth to creeping bentgrass, both grasses were fertilized either through foliar or soil application with either urea or ammonium sulfate and the impact on shoot and root growth measured. Ammonium sulfate resulted in greater overall growth for both species. Foliar application resulted in greater shoot growth for annual bluegrass and soil application resulted in greater root growth for creeping bentgrass. Leaf samples, as well as multiple leaf samples collected from golf courses, were examined microscopically for potential routes for foliar nutrient uptake: stomata and aqueous pores. No statistical difference was observed in the stomatal number between the two species but annual bluegrass possessed more aqueous pores. The enhanced ability of annual bluegrass to benefit from foliar fertilization may aid in its encroachment on highly managed golf greens.  相似文献   

2.
This study was designed to determine and compare root growth and nutritional responses of creeping bentgrass cultivars that differ in heat tolerance to differential, supraoptimal, shoot and root temperatures. Shoots and roots of ‘Penncross’ (heat sensitive) and ‘L‐93’ (heat tolerant) were exposed to four air/soil temperature regimes (20/20°C‐control, 20/35°C, 35/20°C, and 35/35°C) in water baths and growth chambers. Exposing roots to supraoptimal root temperature (35°C) while maintaining shoots at normal temperature (20°C) or particularly at 35°C reduced root fresh weight, root number, and contents of nitrogen (N), phosphorus (P), and potassium (K) in shoots and roots and accelerated root death for both cultivars. High root temperature had greater detrimental effects on root growth and nutrient element accumulation than high shoot temperature for both cultivars. A low root temperature at supraoptimal shoot temperature improved root growth, reduced root mortality; and increased N, P, and K contents in shoots and roots. Among the three nutrient elements, K was the most sensitive to changes in root temperature. L‐93 generally maintained higher fresh weight and number of roots and higher N, P, and K contents in shoots and roots, particularly K in roots, under high root (20/35°C) or shoot/root (35/35°C) temperatures. The results indicated that root growth and nutrient element accumulation, particularly of K, played an important role in creeping bentgrass tolerance to heat stress imposed on shoots by high air temperature or to roots by high soil temperatures. The enhanced root growth and nutrient element relations with a low root temperature at supraoptimal ambient temperatures could lead to the improved shoot growth in cool‐season grasses observed under these conditions.  相似文献   

3.
Abstract

Superferrite is marketed as a turf fertilizer in the United States, but there is limited information on its effectiveness or potential risks due to high zinc (Zn) and lead (Pb) contents. A greenhouse study was conducted where hybrid bermudagrass and tall fescue, growing in a calcareous clay or acid sandy soil, and creeping bentgrass, growing in a putting green root zone mix, were fertilized with 0, 50, 100, and 150% the recommended rate of Superferrite fertilizer (73.4 g m?2). Bermudagrass and tall fescue clipping weights increased with Superferrite rate but root mass was not affected. Tissue iron (Fe) concentrations were mostly unaffected by Superferrite, but total Fe uptake, tissue Zn, and total Zn uptake increased with Superferrite rate. Increased yields were probably due to increasing nitrogen (N) applications rather than Fe or Zn. Small increases in Pb uptake with Superferrite applications suggest that Superferrite Pb had low bioavailability to turf.  相似文献   

4.
The loss of fertilizer N from golf greens can be high depending upon management (irrigation schedule, N source, rate and timing of fertilizer application) as well as soil conditions. Although soil organic matter (SOM) is acknowledged as a major source of N and other nutrients, its potential as an N source seems to be neglected in the management of golf greens. The susceptibility of SOM to degradation is one indication of how active a role SOM plays as a nutrient source. An extraction method developed by Olk et al. [Geoderma 65 (1995) 195] distinguishes humic acid fractions by their binding to dominant stabilizing soil cations and separates them into calcium-bound (CaHA) and non calcium-bound or mobile (MHA) fractions. Mobile humic acid is a relatively young, N-rich HA fraction that does not appear to form stable complexes with Ca. The MHA could therefore play a greater role in nutrient availability than CaHA. We determined C and N distributions within SOM extracted from these two HA fractions in 11 golf greens ranging in age from 4 to 28 yr. Because SOM in golf greens is recently formed, and MHA is an N-rich fraction representing an early stage of SOM evolution, we hypothesized that the MHA fraction would account for a larger proportion of soil organic N than CaHA. The amounts of both HA-C and HA-N increased significantly with green age. MHA accounted for a larger proportion (20-27%) of total soil C than CaHA-C (8-14%). MHA was also enriched in N compared to CaHA with consistently smaller C-to-N ratios. Thus, the greater abundance of MHA and its higher N concentration accounted for a larger proportion of soil organic N (24-45%). The equivalence of MHA-N ranged between 250 kg N ha−1 for a 4 yr-old green and 775 kg N ha−1 for a 21 yr-old green. Thus, soils of established greens contain significant quantities of labile SOM rich in N that could through mineralization supply part of the fertilizer N requirement of turf grass. A greater understanding of the dynamics of this resource is needed if we are to manage golf greens for optimal use without negative consequences to the environment.  相似文献   

5.
Ferric ethylenediamine- N, N'-bis-(o-hydroxyphenylacetic)acid chelate (Fe(o, o-EDDHA)) is one of the most effective Fe fertilizers in calcareous soils. However, humic substances are occasionally combined with iron chelates in drip irrigation systems in order to lower costs. The reactivity of iron chelate-humic substance mixtures in several soil components and in calcareous soils was investigated through interaction tests, and their behavior was compared to the application of iron chelates and humic substances separately. Two commercial humic substances and two Fe(o, o-EDDHA) chelates (one synthesized in the laboratory and one commercial) were used to prepare iron chelate-humic substance mixtures at 50% (w/w). Various soil components (calcium carbonate, gibbsite, amorphous iron oxide, hematite, tenorite, zincite, amorphous Mn oxide, and peat) and three calcareous soils were shaken for 15 days with the mixtures and with iron chelate and humic substance solutions. The kinetic behavior of Fe(o, o-EDDHA) and Fe non-(o,o-EDDHA) (Fe bonded to (o,p-EDDHA) and other polycondensated ligands) and of the different nutrients solubilized after the interaction assay was determined. The results showed that the mixtures did not significantly reduce the retention of Fe(o, o-EDDHA) and Fe non-(o,o-EDDHA) in the soil components and the calcareous soils compared to the iron chelate solutions, but they did produce changes in the retention rate. Moreover, the competition between humic substances and synthetic chelating agents for complexing metal cations limited the effectiveness of the mixtures to mobilize nutrients from the substrates. The presence of Fe(o, p-EDDHA) and other byproducts in the commercial iron chelate had an important effect on the evolution of Fe(o, o-EDDHA) and the nutrient solubilization process.  相似文献   

6.
Heat stress reduces creeping bentgrass performance in temperate to sub-tropical climates. The research objective was to characterize effects of nitrogen (N) and cytokinin (CK) on creeping bentgrass under heat stress. In a 38°C/28°C chamber, grasses were treated with two nitrogen (2.5 and 7.5 kg N ha?1) and three CK rates (0, 10 and 100 μM) biweekly. Grass grown at high N had better turf quality, higher photochemical efficiency (Fv/Fm), normalized difference vegetation index (NDVI), and chlorophyll concentration at d15 and 28 than low N. CK increased NDVI at d15, with Fv/Fm of the CK100 treatment being 18% higher than that of CK0 at d28. Under high N with 100 μM CK, root trans-zeatin riboside (tZR) and isopentenyl adenosine (iPA) were 160% and 97% higher than under low N without CK, respectively. These results demonstrate positive impacts of N and CK on creeping bentgrass under heat, with N playing a dominant role.  相似文献   

7.
水 、氮供应对玉米伤流及其养分含量的影响   总被引:11,自引:2,他引:11  
以玉米为供试作物, 在遮雨棚内进行了微区田间试验, 研究了不同水、氮供应玉米的伤流量, 伤流液中的硝态 氮、铵态氮、游离氨基酸及磷、钾含量, 以及对植株氮、磷、钾等养分含量和吸收量的影响。 结果表明, 供水明显增加 伤流量和伤流液中硝态氮、铵态氮、游离氨基酸及磷、钾含量。 水分充足或水分胁迫较轻时, 伤流量及其养分含量 随施氮增加而增加;水分胁迫严重时, 则减少。 在不同水、氮供应条件下, 植株氮、磷、钾养分含量及吸收量具有相 同的变化趋势。  相似文献   

8.
Bacterial populations in constructed and fumigated golf course putting greens is a topic that has not been widely explored. The objective of this project was to evaluate the root mass and rhizosphere bacterial populations of creeping bentgrass (Agrostris palustris Huds. Crenshaw) greens over time as affected by root-zone mix and nitrogen rate. Individual miniature putting greens (1x0.5 m) were built at ground level. Two root-zone mixes (80%/20% sand-peat and 100% sand) and two N rates (1.0 and 0.5 g N m–2 week–1 all year) were evaluated, with four replications of each root-zone x N rate treatment. Quarterly (February, May, August, November) root samples (10 cm deep) were removed from each green for 3 years. Standard dilution plating techniques were used to enumerate fluorescent pseudomonads, gram-positive bacteria, gram-negative bacteria, Stenotrophomonas maltophilia-like bacteria, actinomycetes, heat-tolerant bacteria, and total aerobic bacteria. There was rarely a significant N rate x root-zone mix interaction, although main effects of N rate and root-zone mix did affect microbial populations at some samplings. If differences did exist, bacterial populations were higher in the sand-peat root-zone mix or in the treatments receiving the higher N rate. While a significant decrease in all bacterial populations enumerated was observed between November 1998 and February 1999, no similar decrease was observed for the same time period in 1997–1998 or 1999–2000. In general, there were no obvious population trends in any microbial population over the 3-year sampling period. Populations of total bacteria ranged from a low of 5.4 to a high of 8.3 log10 CFU per gram of root and rhizosphere soil throughout the 3-year sampling period.  相似文献   

9.
There is lack of information available concerning the effect of humic substances (HS) applied via fertigation on plant growth in sandy soils. Therefore, a field experiment was carried out at El‐Saff district (20 km southwest of Cairo), Egypt, to investigate the role of HS fertigation on water retention of a sandy soil, yield and quality of broccoli (Broccoli oleracea L.) as well as on soil nutrient concentration retained after harvest. The experiment consisted of six fertigation treatments (50%, 75%, and 100% of the recommended NPK‐fertilizer rate for broccoli combined with and without HS application at 120 L ha–1) in a complete randomized block design with three replicates. Humic substances affected spatial water distribution and improved water retention in the root zone. Furthermore, application of HS increased total marketable yield and head diameter of broccoli as well as quality parameters (i.e., total soluble solids, protein, and vitamin C). Higher nutrient concentrations were found in the broccoli heads and concentrations of plant‐available nutrients in soil after harvesting were also higher, indicating an improvement in soil fertility. In conclusion, HS fertigation can be judged as an interesting option to improve soil water and nutrient status leading to better plant growth.  相似文献   

10.
田霄鸿  聂刚  李生秀 《土壤通报》2002,33(4):263-267
本试验模拟滴灌方法 ,在不同土壤层次进行灌水和施用氮磷养分的盆栽玉米试验 ,旨在探讨在不同土壤层次供应水分和养分对夏玉米幼苗生长、根系空间构型及玉米对养分吸收的影响。试验表明 :在土壤深层进行滴灌可以有效降低土面蒸发 ,提高水分和养分的利用效率 ,从而显著提高玉米幼苗的生长量 ;在不同层次施肥灌水 ,对玉米根系在土壤中的空间构型影响很大 ,进行深层滴灌可以极大促进根系在较深土壤中的发育 ;在不同土层施肥灌水对玉米幼苗吸收N、P、K三种养分的能力也有影响 ,深层施肥灌水提高了玉米对 3种养分的吸收量  相似文献   

11.
Using organic fertilizer or soil amendment such as humic substances is an important component for sustainable agriculture. The objective of this study was to determine the effects of different factions of humic acids (HAs) on corn seedling growth and nutrient uptake. The experiment was carried out with both an agar culture in root boxes and a hydroponic culture to which 400 mg/L of different factions of humus acids, mixed HAs, and raw Leonardite were added. The experiments were repeated twice with three replications for each treatment. The results showed that applications of HAs significantly improved the leaf and root growth of corn seedlings compared with the control (no HA addition). In the agar culture, seedlings treated with HAs with relatively low molecular weights had more leaves and twice long of roots compared to control and other treatments. In the hydroponic culture, the mixture of three factions was the best treatment for both shoot and root growth of seedlings.  相似文献   

12.
ABSTRACT

Inhibiting shoot growth of dwarf bermudagrass [Cynodon dactylon(L.) Pers. × C. transvaalensis Burtt-Davey] with a plant-growth retardant, trinexapac-ethyl (TE), may redirect nutrients and photosynthate away from leaf tissue to promote root growth and improve nutrient-use efficiency. Two greenhouse experiments evaluated three rates of TE, 0.025, 0.05, and 0.075 kg a.i. ha?1, applied every three weeks on ‘TifEagle’ bermudagrass for 12 weeks. Lysimeters constructed to United State Golf Association specifications were arranged in a randomized complete block design with four replications. Increased TE rates quadratically reduced clipping yield 38%–75%, improved turf quality 6%–13%, and enhanced chlorophyll concentrations 30%–70% over the untreated grass. Dry-root mass increased with TE rate 11%–37% after 12 weeks. Total clipping nutrients recovered from five sampling dates were reduced by approximately 50%, 85%, and 90% for turf receiving TE at 0.025, 0.05, and 0.075 kg ha?1 3 wk?1, respectively. Thatch (stolons and rhizomes) and roots had higher nitrogen (N) concentration and retention with increased TE rate, suggesting inhibited leaf growth increased N storage in belowground plant tissue. Overall, TE may effectively enhance turf quality, root growth, and nutrient-use efficiency of dwarf-type bermudagrasses. Chemical name used: trinexapac-ethyl, [4-(cyclopropyl-[α]-hydroxymethylene)-3,5-dioxo-cyclohexane carboxylic acid ethylester].  相似文献   

13.
The effects of calcium and humic acid on seed germination, growth and macro- and micro-nutrient contents of tomato (Lycopersicon esculentum L.) seedlings in saline soil conditions were evaluated. Different levels of humic acid (0, 500, 1000 and 2000 mg kg?1) and calcium (0, 100, 200 and 400 mg kg?1) were applied to growth media treated with 50 mg NaCl kg?1 before sowing seeds. Seed germination, hypocotyl length, cotyledon width and length, root size, shoot length, leaf number, shoot and root fresh weights, and shoot and root dry weights of the plant seedlings were determined. Macro- and micro-nutrient (N, P, K, Ca, Mg, S, Cu, Fe, Mn and Zn) contents of shoot and root of seedlings were also measured. Humic acid applied to the plant growth medium at 1000 mg kg?1 concentration increased seedling growth and nutrient contents of plants. Humic acid not only increased macro-nutrient contents, but also enhanced micro-nutrient contents of plant organs. However, high levels of humic acid arrested plant growth or decreased nutrient contents. Levels of 100 and 200 mg kg?1 Ca2+ application significantly increased N, Ca and S contents of shoot, and N and K contents of root.  相似文献   

14.
再生水灌溉草坪对土壤质量影响的试验研究   总被引:4,自引:0,他引:4  
采用随机区组设计,研究了再生水(Reclaimed Water)灌溉黑麦草(Lolium perenne L.)、早熟禾(Poapratensis)、高羊茅(Festuca arundinacea)、结缕草(Zoysia japonica)、野牛草(Buchloe dactyloides)、麦冬(Radix liriopes)6种草坪草对土壤质量的影响,结果表明:(1)再生水灌溉能增加土壤养分,但根据养分在土壤中迁移的难易程度及不同草坪的根系分布特征,再生水灌溉输入的养分在土壤剖面分布不同;(2)再生水灌溉后的土壤虽然碱化度处在5%~10%弱碱化范围,但与自来水灌溉相比,其在土壤剖面中的分布有扩大的趋势;(3)在6种供试草坪草中,再生水灌溉后黑麦草和结缕草土壤质量最好,可见黑麦草和结缕草比较适宜进行再生水灌溉。  相似文献   

15.
Substituted glycopyranosides were applied to various plant species as foliar and root treatments, with and without nutrient supplements, and growth was compared to untreated or nutrient controls. When formulated with specific fertilizers, particularly available nitrogen, methyl and ethyl glycopyranosides significantly enhanced the overall growth of vascular plants compared to controls provided with the same nutrients. In contrast, vascular plants treated with alkylglycopyranosides without nutrients showed growth equivalent to that of untreated controls. Nitrogen-supplemented alkylglycopyranosides provided as foliar applications of 100 mM, or as root treatments between 35 and 50 mM, consistently enhanced root and shoot productivity. In addition to the vascular plant species tested, the brown alga Laminaria saccharina exhibited significant growth enhancement over nutrient controls when treated with alkylglycopyranosides supplemented with nutrients, especially under low irradiance. Overall, these results indicate that growth of photosynthetic organisms is enhanced by exogenous alkylglycopyranosides supplemented with nitrogen and micronutrients, but not by alkylglycopyranosides alone.  相似文献   

16.
Abstract

The form of nitrogen can affect root and shoot growth of plants. This study was conducted to determine the effects of ammonium and nitrate nitrogen on root length and number and shoot color and quality of creeping bentgrass (Agrostis palustris Huds. ‘Penncross'). The study was conducted in the University of Georgia rhizotron facility. Turf was grown in an 80/20 sand/peat rooting medium and maintained under putting green conditions for 12 months. Two forms of nitrogen, ammonium and nitrate, utilizing the nitrogen sources of urea and calcium nitrate, respectively, were applied in the following ammonium: nitrate ratios: 100: 0, 75: 25, 50: 50, 25: 75, and 0: 100. A modified Hoagland's solution provided all other macronutrients and micronutrients. Root length, root number, shoot color, and shoot quality data were collected weekly for 12 months. The 100% nitrate treatment resulted in 30% more roots during the fall compared to the 100% ammonium treatment The 100% ammonium treatment had 26% greater root length in the spring compared to the two highest nitrate treatments. The 50: 50 treatment produced greater root length during the spring and summer compared to the high nitrate treatments (0: 100 and 25: 75) and at least 30% greater root number during the summer compared to all treatments. All treatments resulted in a decrease in root length for the summer compared to the spring. The 50: 50 treatment provided higher ratings for shoot color for each season and higher quality ratings for the winter and spring. A fertilizer program that contains a portion of its nitrogen as nitrate would be more beneficial certain times of the year than one containing ammonium or nitrate alone.  相似文献   

17.
The biological activity of humic substances (HS) has been elucidated in the last 40 years. Growth enhancement from HS has been demonstrated in several plants in the laboratory and the field. Morphogenesis effects have also been investigated and include induction of lateral root formation and root hair initiation in intact plants and stimulation of root and shoot development in treated cell calluses. HS enhance nutrient use efficiency, aiding assimilation of both macro and microelements and promoting plant growth by the induction of carbon, nitrogen, and secondary metabolism. The review aims are to: (1) shed light on the mechanism by which plants “talk” with soil through humic substances, (2) elucidate the plant responses to the stimulatory effects of HS, the regulatory circuits that allow plants to cope with humus, and the feedback between plant community structures, and (3) show (in light of recent debate about the alkaline extraction of soil humic substances) the plant capability to acquire biologically active substances from soil. It will be shown that plants modify soils, creating and maintaining favorable habitats for growth and survival. Therefore, organic substances exuded by roots are not a wasteful loss of carbon and energy. They represent an evolved strategy by which plants “talk” to the soil. The mobilization of bioactive organic/humic substances from bulk soil or bulk humus is critical to plant and soil health.  相似文献   

18.
BP保水剂及其对土壤与作物的效应   总被引:88,自引:7,他引:81  
对美国生产的BP保水剂在土壤中的试验结果表明,BP保水剂有极强的吸水保水能力,对无离子的吸水能力为38.7mL/g,含盐量在0~0.1%范围内,溶胀度变化最大,在0.1%盐水中的溶胀度仅为蒸馏水的63%,吸持的有效水占2/3以上;BP保水剂施加到土壤中可改善土壤物理水分性状,土壤持水性能显著增大,在0.01~1.5MPa土壤水势范围内,砂土和重壤土较轻壤土和中壤土有显著增加;土壤中施加BP保水剂,土壤饱和导水率显著降低,土壤蒸发性能无显著变化,土壤团聚作用增强;其中砂土增加效果显著;BP保水剂加入砂土中盆栽种植小麦试验表明,加入BP保水剂,可使小麦幼苗株重、根系长度和根重有明显的增加,根冠比明显增大,根系营养状况良好,对小麦生长有明显的促进作用。  相似文献   

19.
The sensitivity of creeping bentgrass (Agrostis palustris Huds.) to the extreme heat found in the southeastern United States has led to the development of new greens-management methods. The purpose of this study was to examine the effects of subsurface aeration and growth regulator applications on soil microbial communities and mycorrhizal colonization rates in a creeping bentgrass putting green. Two cultivars (Crenshaw and Penncross), a growth regulator (trinexapac-ethyl), and subsurface aeration were evaluated in cool and warm seasons. Total bacterial counts were higher in whole (unsieved) soils than in sieved soils, indicating a richer rhizosphere soil environment. Mycorrhizal infection rates were higher in trinexapac-ethyl (TE) treated plants. High levels of hyphal colonization and relatively low arbuscule and vesicle occurrence were observed. Principal components analysis of whole-soil fatty acid methyl ester (FAME) profiles indicated that warm-season microbial populations in whole and sieved soils had similar constituents, but the populations differed in the cool season. FAME profiles did not indicate that subsurface aeration and TE application affected soil microbial community structure. This is the first reported study investigating the influences of subsurface aeration and TE application on soil microorganisms in a turfgrass putting green soil.  相似文献   

20.
为研究不同滴灌方式下大田苹果幼树的根系生长行为,提出一种用Otsu方法对根系图像进行分割后统计分析根系空间分布的方法,利用图像处理库通过Python语言编程实现了获取空间分布统计矩阵,以Lynch的根构型模型为结构原型,结合功能模型建立不同滴灌方式下的大田苹果幼树根系生长行为结构功能模型,最后利用OpenAlea对该模型进行三维可视化模拟。以大田苹果幼树为试验对象进行验证,同时依据形态特征的相似度以及仿真数据与实测数据的相关性两个参考指标将模拟结果与实物进行对比,验证了所采用算法的有效性。结果表明,Otsu算法可有效分割苹果幼树根系图像数据,结合常规功能结构参数和空间分布统计矩阵建立的大田苹果幼树根系结构功能模型可科学地模拟不同滴灌方式对苹果幼树根系空间拓扑的影响,大田苹果幼树根系结构功能模型模拟可以可视化不同滴灌方式下的根系生长空间变化行为。可视化模拟结果表明,分根区交替灌溉的苹果幼树根系在根区两侧分布比较均匀,根密度较大,有利于提高根系对水肥的吸收利用效率。研究结果可为分根区交替灌溉在果园的应用提供参考。  相似文献   

设为首页 | 免责声明 | 关于勤云 | 加入收藏

Copyright©北京勤云科技发展有限公司  京ICP备09084417号