Iron deficiency-Plums

Deficiency leads to characteristic chlorotic yellowing, and sometimes bleaching, of new leaf growth. Leaf veins remain green. The severity of the chlorosis increases towards the youngest leaves at the tip of the shoot. Under severe deficiencies, leaf scorch occurs.

Iron deficiency Problems are more common on high pH calcareous soils, rich in Ca and Mg carbonates, or where soils are waterlogged.

Deficiency leads to characteristic chlorotic yellowing, and sometimes bleaching, of new leaf growth. Leaf veins remain green. The severity of the chlorosis increases towards the youngest leaves at the tip of the shoot. Under severe deficiencies, leaf scorch occurs.

Iron deficiency Problems are more common on high pH calcareous soils, rich in Ca and Mg carbonates, or where soils are waterlogged.

Deficiency leads to characteristic chlorotic yellowing of new leaf growth, whereas leaf veins remain green. The severity of the chlorosis increases towards the youngest leaves at the tip of the shoot. With proceeding deficiency, leaves can become almost white.

Iron deficiency Problems are more common on high pH calcareous soils, rich in Ca and Mg carbonates, or where soils are waterlogged.

Deficiency leads to characteristic chlorotic yellowing, and sometimes bleaching, of new leaf growth. Leaf veins remain green. The severity of the chlorosis increases towards the youngest leaves at the tip of the shoot. Under severe deficiencies, leaf scorch occurs.

Iron deficiency Problems are more common on high pH calcareous soils, rich in Ca and Mg carbonates, or where soils are waterlogged.

Deficiency leads to characteristic chlorotic yellowing, and sometimes bleaching, of new leaf growth. Leaf veins remain green. The severity of the chlorosis increases towards the youngest leaves at the tip of the shoot. Under severe deficiencies, leaf scorch occurs.

Iron deficiency Problems are more common on high pH calcareous soils, rich in Ca and Mg carbonates, or where soils are waterlogged.

Deficiency leads to characteristic chlorotic yellowing, and sometimes bleaching, of new leaf growth. Leaf veins remain green. The severity of the chlorosis increases towards the youngest leaves at the tip of the shoot. Under severe deficiencies, leaf scorch occurs.

Iron deficiency Problems are more common on high pH calcareous soils, rich in Ca and Mg carbonates, or where soils are waterlogged.

Deficiency leads to characteristic chlorotic yellowing, and sometimes bleaching, of new leaf growth. Leaf veins remain green. The severity of the chlorosis increases towards the youngest leaves at the tip of the shoot. Under severe deficiencies, leaf scorch occurs.

Iron deficiency Problems are more common on high pH calcareous soils, rich in Ca and Mg carbonates, or where soils are waterlogged.