Region
China
29 AI-consensus-verified claims tagged with regional_context = "China".
Top entities in this region
- Matsucoccus matsumuraeother 6 claims
- Zea maysCornplantae 6 claims
- Pinus tabulaeformisChinese pineplantae 3 claims
- Vicia fabaBell-beanplantae 3 claims
- Oryza sativaAsian riceplantae 3 claims
- Triticum aestivumWheatplantae 3 claims
- Lepidoptera spp.other 2 claims
- Trichogramma dendrolimiother 2 claims
- Pinus thunbergianaJapanese black pineplantae 2 claims
- Glycine maxEdamameplantae 2 claims
- Ostrinia furnacalisinvertebrate 2 claims
- Oecophylla smaragdinaGroene wevermierinvertebrate 2 claims
attracts natural enemy
- Lamiaceae (family) interactsWith predatory arthropods
“intercropping with aromatic plants decreases herbivore abundance”
Brooker R.W., Bennett A.E., Cong W.-F., Daniell T.J., George T.S., Hallett P.D., Hawes C., Iannetta P.P.M., Jones H.G., Karley A.J., Li L., McKenzie B.M., Pakeman R.J., Paterson E., Schob C., Shen J., Squire G., Watson C.A., Zhang C., Zhang F., Zhang J., White P.J. (2015) · Improving intercropping: a synthesis of research in agronomy, plant physiology and ecology #6495969
biocontrol
- predatory arthropod community preysOn herbivorous arthropods of apple
“50-100% increase in predator species richness and abundance relative to herbivorous pests”
Brooker R.W., Bennett A.E., Cong W.-F., Daniell T.J., George T.S., Hallett P.D., Hawes C., Iannetta P.P.M., Jones H.G., Karley A.J., Li L., McKenzie B.M., Pakeman R.J., Paterson E., Schob C., Shen J., Squire G., Watson C.A., Zhang C., Zhang F., Zhang J., White P.J. (2015) · Improving intercropping: a synthesis of research in agronomy, plant physiology and ecology #6495583
-
“S. cerealella suitable for mass rearing of T. ostriniae in China”
Das B.C., et al. (2021) · Parasitoids in Pest Management · p. 243 #6495072
-
“Production of T. dendrolimi and T. chilonis at commercial scale using large host eggs in China”
Das B.C., et al. (2021) · Parasitoids in Pest Management · p. 243 #6495071
-
“consume a variety of pests, such as aphids, flower thrips, and... spider mites on more than 20 vegetable crops”
Bhagyasree S.N., Anokhe Archana, Shashank P.R., Patel C.H. (2022) · Insect Predators in Pest Management · p. 270 #6494990
-
“common in fields of cotton, pear, and apple, and is considered to be an important predator”
Bhagyasree S.N., Anokhe Archana, Shashank P.R., Patel C.H. (2022) · Insect Predators in Pest Management · p. 268 #6494986
-
“Trichogramma spp. parasitoids reared in the People's Republic of China on artificial eggs”
Andow D.A., Ragsdale D.W., Nyvall R.F. (1997) · Ecological Interactions and Biological Control · p. 144 #6493064
-
“use of T. dendrolimi in control of Asian corn borer is common in China”
Andow D.A., Ragsdale D.W., Nyvall R.F. (1997) · Ecological Interactions and Biological Control #6492964
-
“colonies of predatory ants set up in citrus groves”
Dent D. (2000) · Insect Pest Management, 2nd Edition · p. 2 #6492317
-
“colonies of predatory ants set up in citrus groves”
Dent D. (2000) · Insect Pest Management, 2nd Edition · p. 2 #6492306
facilitation
-
“Maize/Faba bean intercropping with Rhizobia inoculation enhances productivity”
Kuepper G., Dodson M., Duncan J. (2016) · p. 5 #6495594
-
“secrete organic acids and phosphatases into the rhizosphere, thereby increasing soil P availability”
Brooker R.W., Bennett A.E., Cong W.-F., Daniell T.J., George T.S., Hallett P.D., Hawes C., Iannetta P.P.M., Jones H.G., Karley A.J., Li L., McKenzie B.M., Pakeman R.J., Paterson E., Schob C., Shen J., Squire G., Watson C.A., Zhang C., Zhang F., Zhang J., White P.J. (2015) · Improving intercropping: a synthesis of research in agronomy, plant physiology and ecology #6495582
-
“pea... faba bean, soybean and peanut... most common companion species”
Li C., Hoffland E., Kuyper T.W., Yu Y., Zhang C., Li H., Zhang F., van der Werf W. (2020) · Syndromes of production in intercropping impact yield gains · p. 3 #6495297
-
“Legumes such as pea... faba bean... were the most common companion species”
Li C., Hoffland E., Kuyper T.W., Yu Y., Zhang C., Li H., Zhang F., van der Werf W. (2020) · Syndromes of production in intercropping impact yield gains · p. 3 #6495296
-
“reduced N fertilizer input at the early cogrowth stage in maize/pea intercropping improves N2 fixation”
Li C., Hoffland E., Kuyper T.W., Yu Y., Zhang C., Li H., Zhang F., van der Werf W. (2020) · Syndromes of production in intercropping impact yield gains · p. 5 #6495295
-
“intercrops with maize... yield gains... about four times as large”
Li C., Hoffland E., Kuyper T.W., Yu Y., Zhang C., Li H., Zhang F., van der Werf W. (2020) · Syndromes of production in intercropping impact yield gains · p. 1 #6495294
herbivory
-
“M. matsumurae has caused extensive injury to ... P. tabulaeformis”
Andow D.A., Ragsdale D.W., Nyvall R.F. (1997) · Ecological Interactions and Biological Control · p. 33 #6492877
-
“M. matsumurae has caused extensive injury to ... P. thunbergiana”
Andow D.A., Ragsdale D.W., Nyvall R.F. (1997) · Ecological Interactions and Biological Control · p. 33 #6492876
-
“M. matsumurae has caused extensive injury to Pinus densiflora”
Andow D.A., Ragsdale D.W., Nyvall R.F. (1997) · Ecological Interactions and Biological Control · p. 33 #6492875
-
“M. matsumurae has caused extensive injury to ... P. tabulaeformis”
Andow D.A., Ragsdale D.W., Nyvall R.F. (1997) · Ecological Interactions and Biological Control · p. 33 #6492869
-
“M. matsumurae has caused extensive injury to Pinus densiflora, P. thunbergiana”
Andow D.A., Ragsdale D.W., Nyvall R.F. (1997) · Ecological Interactions and Biological Control · p. 33 #6492868
-
“reduce Sitobion avenae occurrence by promoting natural enemies”
Yousefi M., Marja R., Barmettler E., Six J., Dray A., Ghazoul J. (2024) · The effectiveness of intercropping and agri-environmental schemes on ecosystem service of biological pest control: a meta-analysis · p. 13 #6492021
mutualism
-
“Intercropping maize and soybean increases efficiency of land and fertilizer nitrogen use”
Li C., Hoffland E., Kuyper T.W., Yu Y., Zhang C., Li H., Zhang F., van der Werf W. (2020) · Syndromes of production in intercropping impact yield gains · p. 6 #6495302
pathogen pressure
-
“sheath blight (8.75%) and stem borers (8.75%) in China”
Savary S., Willocquet L., Pethybridge S. J., Esker P., McRoberts N., Nelson A. (2019) · The global burden of pathogens and pests on major food crops · p. 5 #6495332
-
“FHB/scab (8.75%) in China”
Savary S., Willocquet L., Pethybridge S. J., Esker P., McRoberts N., Nelson A. (2019) · The global burden of pathogens and pests on major food crops · p. 5 #6495328
-
“Poisoning from moldy sugar cane is caused by a mycotoxin produced by species of Arthrinium”
Unknown (Unknown) · History of Plant Pathology and Early Significant Plant Diseases (Chapter 1 Introduction) #6493172
-
“Enhanced genetic diversity reduced blast incidence by 94% and increased total yields by 89%”
Rickerl D., Francis C., Gliessman S.R., Nicholls C.I., Altieri M.A., Janke R.R., Dobbs T.L., Flora C.B., Schumacher T.E., Caldwell R.M., Salomonsson L., Lieblein G., Helenius J., Kirschenmann F. (2004) · Agroecosystems Analysis · p. 55 #6492133
pest pressure
-
“sheath blight (8.75%) and stem borers (8.75%) in China”
Savary S., Willocquet L., Pethybridge S. J., Esker P., McRoberts N., Nelson A. (2019) · The global burden of pathogens and pests on major food crops · p. 5 #6495333
-
“M. matsumurae has caused extensive injury to P. tabulaeformis”
Andow D.A., Ragsdale D.W., Nyvall R.F. (1997) · Ecological Interactions and Biological Control · p. 33 #6492296