A. B. Hatch scite author profile

Pinus taeda seedlings were grown for 10 weeks without ectomycorrhizae under low and high rates of complete soil fertility, as well as these rates minus N, P, K, or Ca. Seedling growth, inorganic chemical content of needles, and soluble-carbohydrate content of short roots were significantly affected by soil fertility, especially the high rates of N and P. Number and length of lateral and short roots were not affected by soil fertility. Sucrose and fructose contents of short roots were lowest at high levels of N and P; glucose was not detected. Seedlings from each of the 10 fertility combinations were inoculated with vegetative inoculum of Pisolithus tinctorius and incubated for 19 to 21 days at a moderate level of complete soil fertility. Significantly more ectomycorrhizae were formed on seedlings from the complete low fertility rate than on those from the high rates of N and P. Ectomycorrhizal development on seedlings from the other fertility combinations were intermediate from these extremes. Sucrose content of short roots determined before inoculation was significantly correlated with ectomycorrhizal development and accounted for 85% of the variation in susceptibility of short roots to infection by P. tinctorius. Fructose content of short roots was not correlated with ectomycorrhizal development. These results indicate that high levels of N and Pin soil decrease sucrose content of short roots of loblolly pine and decrease their susceptibility to ectomycorrhizal development by P. tinctorius.

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The Effect of Leaf Litter on Surface Soil Properties of the Jarrah Forest

Wallace¹,

Hatch²

1952

Australian Forestry

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Mycorrhizal and Other Features of the Root Systems of Pinus

Hatch¹,

Doak²

1933

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Some Hymenomycetes Forming Mycorrhizae With Pinus strobus L

Hatch¹,

Hatch²

1933

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A. B. Hatch

High soil fertility decreases sucrose content and susceptibility of loblolly pine roots to ectomycorrhizal infection by Pisolithus tinctorius

The Effect of Leaf Litter on Surface Soil Properties of the Jarrah Forest

Mycorrhizal and Other Features of the Root Systems of Pinus

Some Hymenomycetes Forming Mycorrhizae With Pinus strobus L

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