Mahmood, 1996; Stapleton et al., 20

Mahmood, 1996; Stapleton et al., 2010). China is the largest
producer of tobacco in the world and, thus, a large amount of
tobacco residue is generated during the processing of cigarettes
(Zhu et al., 2006; Li et al., 2010). Previous studies have reported that
tobacco leaf extracts significantly inhibited the movement of
nematodes within 1 h of exposure, inactivated or killed 95% of the
nematodes in 24 h and addition of leaves of tobacco markedly
reduced populations within three days (Miller et al., 1973). These
results suggest that recycled tobacco wastes may reduce nematode
infection. However, little is known about the effect of recycled
tobacco wastes on nematode infection and potential application in
the greenhouse condition.
In fact, it is unlikely for any single nematode control method to
have a remarkable impact on nematode control in the field,
therefore, integrated control approaches need to be developed to
restrict the development and multiplication of nematodes. Integrated
strategies for resistant plants and tobacco residues are
attractive for exploiting a plant’s potential for reducing nematode
infection for host crops. In order to realize the integrated strategies
for alleviating nematode infection in farmers’ fields, we need to
screen resistant plants in adaptive intercropping with cucumber or
tomato plants, to determine the potential of tobacco residues
against nematodes, and to offer a new sustainable methodology of
integrated nematode control management for the greenhouse
crops. The long-term goal is to achieve a marked improvement in
nematode control that will make an important contribution to crop
production and environmental protection.