1 / 43

Fig. 1 Oats ( Avena sativa )

“Technological stripe disease” of agricultural crops (Fig. 1-3). Fig. 1 Oats ( Avena sativa ). Fig. 2 Winter wheat ( Triticum aestivum ). Fig. 3 Rape ( Brassica napus oleifera ). Uncorrected N fertilizer application: the yellow stripes by N deficiency,

sevita
Download Presentation

Fig. 1 Oats ( Avena sativa )

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. “Technological stripe disease” of agricultural crops (Fig. 1-3) Fig. 1 Oats (Avenasativa)

  2. Fig. 2 Winter wheat (Triticum aestivum )

  3. Fig. 3 Rape (Brassica napus oleifera) Uncorrected N fertilizer application: the yellow stripes by N deficiency, the green to dark-green stripes partly N over fertilization

  4. Fig. 4 N deficiency in a winter barley (Hordeum vulgare) field crop; right: plot fertilized with N.

  5. Fig. 5 N and P deficiency in a corn (Zea mays) field crop.

  6. Fig. 6 N deficiency in oats (Avena sativa) right: plants fertilized with N.

  7. Fig. 7 Poor ear development of wheat (Triticum aestivum) due to N deficiency.

  8. Fig. 8 Severe N deficiency in maize (corn), (Zea mays), in the juvenile stage; right: plants fertilized with N.

  9. Fig. 9 Leaf of a corn plant with characteristic symptoms of N deficiency; notice the V-shaped green leaf colour.

  10. Fig. 10 Characteristic symptoms of N deficiency in the older leaves of maize (corn), (Zea mays), form a field crop.

  11. Fig. 11 Potato plants (Solanum tuberosum) in a pot trial; left: plant fertilized with N: right: plant not fertilized with N.

  12. Fig. 12 Early yellowing of the older leaves of a sugar beet plant (Beta vulgaris saccharifera) due to N deficiency; notice the stiffness of the leaves.

  13. Fig. 13 Rutabaga plant (swede, 芜菁甘蓝), (Brassica napus rapifera), with insufficient N fertilization; yellowing of the older leaves with red-violet tints.

  14. Fig. 14 Marrowstem kale (Brassica oleracea var. medullosa,) in a field crop with pale green, yellow, red, and red-violet tinged leaves due to N deficiency; in the back-ground crop fertilized with N.

  15. Fig. 15 Poor plant development and yellowing of the older leaves of flax (Linum usitatissimum,亚麻) due to N deficiency; right: plant fertilized with N.

  16. Fig. 16 Poor development of rape (Brassica mapus oleifera,油菜) in the juvenile stage due to N deficiency; right: plants fertilized with N.

  17. Fig. 17 Tobacco (Nicotiana tabacum) in hydroculture without N nutrition.

  18. Fig. 18 Lettuce (Lactuca sativa ssp.capitata,莴苣) from a glass house culture; left: plant with symptoms of N deficiency (leaf N content=1.58%); right: plant fertilized with N.

  19. Fig. 19 Glass house tomato plants (Lycopersocum esculentum), var. Eurocross; left: plant fertilized with N; right: without N fertilization.

  20. Fig. 20 Leaf of a tomato plant in hydroculture with early symptoms of N deficiency.

  21. Fig. 21 Very severe N deficiency in older leaflets of tomato plants (Lycopersicum esculentum); right: leaflet of a plant fertilized with N.

  22. Fig. 22 Leaves of celery plants (Apium graveolens) with severe symptoms of N deficiency; right: leaf of a plant fertilized with N.

  23. Fig. 23 Brussels sprouts (Brassica oleracea gemmifera,抱子甘蓝) with symptoms of N deficiency; oldest leaves already fallen off after yellowing.

  24. Fig. 24 Glass house cucumber plant (Cucumis sativus) with N deficiency ( leaf NO3-N = < 0.1% )

  25. Fig. 25 Yellowing of strawberry plants (Fragaria ananassa,草莓), partly with red tints, after harvest due to insufficient N fertilization.

  26. Fig. 26 Early yellowing of vine (Vitis vinifera) due to insufficient N fertilization.

  27. Fig. 27 Induced N deficiency (Right) in vine (Vitis vinifera) in a pot trial; left: plant fertilized with N.

  28. Fig. 28 Leaves of vine (Vitis vinifera); left: with N; from center to right: increasing N deficiency.

  29. Fig. 29 Leaves of an apple tree (Malus domestica), var. “Golden delicious” on MVII; leaf N contents left = 0.87% (deficiency) and right = 3.12 % (over fertilized).

  30. Fig. 30 Apples of the var. “Golden delicious” on M IV at leaf N contents left = 1.01% (deficiency), center = 2.60% (normal) and right = 3.35% (overfertilized).

  31. Fig. 27 Norway spruce (Picea abise) with small yellowing tinted needles without necroses due to N deficiency; left: tree fertilized with N.

  32. Fig. 32 Japanese larch trees (Larix leprolepis,落叶松); left: without N fertilization; right: fertilized with N.

  33. Fig. 33 Pine tree (Pinus sylvestris); left: without N fertilization; right: fertilized with N.

  34. Fig. 34 Chestnut oak tree (Quercus sessiliflora,栎); left: fertilized with N; right: without N fertilization.

  35. Fig.35 Leaves of maple trees (Acer pseudoplatanus); left: without N fertilization; right: fertilized with N.

  36. Fig. 36 Leaves of chestnut oak trees (Quercus sessiliflora); above left: N deficiency; below left: K deficiency; above right: P deficiency; below right: fertilized with NPK.

  37. Fig. 37 Cucumber plants (Cucumis sativus) with slight symptoms if N toxicity.

  38. Fig. 38 Cucumber plants (Cucumis sativus) with severe symptoms of N toxicity.

  39. Fig. 39 Induced N toxicity in cucumber plants (Cucumis sativus) in glass house trial.

  40. Fig. 40 “Tipburn” in lettuce (Lactuca sativa var. capitata,莴苣) due to nitrate and chlorid toxicity on a sandy soil.

  41. Fig. 41 “Blotchy ripening”斑状成熟of tomatoes (Lycopersicum esculentum) with yellow and green tints around the basal part of the fruit similar to Mg and K deficiency due to N overfertilization.

  42. Fig. 42 Normal with N fertilized apple tree (Malus domestica) of the var. “Golden delicious” with a fruit on a slightly acid loamy soil; leaf N content = 2.46%; leaf Mn content = 286 ppm.

  43. Fig. 43 Apple tree (Malus domestica) of the var. “Golden delicious” with a fruit overfertilized with N on a slightly acid loamy soil; leaf N content = 3.30%; leaf Mn content = 978 ppm.

More Related