Search
Feedback
About UniCat 
Help
News
| Listing 1 - 7 of 7 |
Sort by
|
Book
Abstract | Keywords | Export | Availability | Bookmark
Loading...Choose an application
- Reference Manager
- EndNote
- RefWorks (Direct export to RefWorks)
Dissertations, Academic --- Entomology and Nematology --- Entomology and Nematology thesis Ph. D --- Evergreens --- Pratylenchus --- Pythium --- UF
Book
Abstract | Keywords | Export | Availability | Bookmark
Loading...Choose an application
- Reference Manager
- EndNote
- RefWorks (Direct export to RefWorks)
Musa --- Musaceae --- Bananas --- Plantains --- World markets --- Marketing policies --- Monoculture --- Environmental impact --- plant nematodes --- Pest resistance --- Organoleptic properties --- Heat treatment --- Radopholus similis --- Pratylenchus goodevi
Book
ISBN: 291081033X 9782910810337 Year: 1999 Publisher: Montpellier : INIBAP,
Abstract | Keywords | Export | Availability | Bookmark
Loading...Choose an application
- Reference Manager
- EndNote
- RefWorks (Direct export to RefWorks)
Musa --- Insecte nuisible --- Pest insects --- Ensete --- Nématode des plantes --- plant nematodes --- Mycosphaerella --- Fusarium oxysporum --- Maladie fongique --- Fungal diseases --- Lutte intégrée --- Integrated control --- Résistance aux maladies --- Disease resistance --- Résistance aux organismes nuisibles --- Pest resistance --- Ensete ventricosum --- Cosmopolites sordidus --- Mycosphaerella fijiensis --- Radopholus similis --- Pratylenchus coffeae --- Helicotylenchus multicinctus --- Meloidogyne --- Pentalonia nigronervosa --- Mycosphaerella musicola --- Afrique --- Africa --- Indonesia --- 632.93 --- 634.771 --- 631.151.6 --- Methods of control of plant diseases, pests, damage --- Musa species in general --- Integrated farm production systems. Sustainable agriculture --- 631.151.6 Integrated farm production systems. Sustainable agriculture --- 634.771 Musa species in general --- 632.93 Methods of control of plant diseases, pests, damage --- Pratylenchus goodeyi --- Periconiella sapientumicola
ISBN: 9789004155640 9004155643 9786611917487 1281917486 9047424018 9789047424017 9781281917485 Year: 2007 Publisher: Leiden ; Boston : Brill.
Abstract | Keywords | Export | Availability | Bookmark
Loading...Choose an application
- Reference Manager
- EndNote
- RefWorks (Direct export to RefWorks)
Root-lesion nematodes of the genus Pratylenchus are recognised worldwide as one of the major constraints of crops of primary economic importance. Pratylenchus spp. comprises around 70 nominal species of worldwide distribution which parasitize a wide variety of plants. The book consists of ten chapters and presents summarised and specialised information concerning the importance of the Pratylenchus species in: agricultural crops, and their world distribution (chapter 1); taxonomy, systematic, general morphology and diagnostic traits of Pratylenchus spp. including new technologies based on biochemical and molecular analyses (chapters 2-6); biology, epidemiology, ecology, host-parasite relationships, and pathogenicity (chapters 7-9). Finally, it illustrates different management strategies for Pratylenchus species, including, crop rotation, host-plant resistance, chemical control, soil solarisation, and biological control (chapter 10).
Nematode diseases of plants. --- Nematode-plant relationships. --- Nematodes --- Plant nematodes as carriers of disease. --- Pratylenchus --- Control. --- Ecology. --- Nematode vectors --- Nematodes as carriers of plant disease --- Invertebrates as carriers of plant disease --- Plant diseases --- Agricultural pests --- Plant nematodes --- Nematodes and plants --- Plant-nematode relationships --- Plants and nematodes --- Animal-plant relationships --- Pratylenchidae
Book
ISBN: 9290640405 Year: 1991 Publisher: Kenya : ICIPE,
Abstract | Keywords | Export | Availability | Bookmark
Loading...Choose an application
- Reference Manager
- EndNote
- RefWorks (Direct export to RefWorks)
Research institutions --- International organizations --- Pest insects --- Trichogramma --- Bacillus thuringiensis --- Mass rearing --- Biological control --- Pest resistance --- ecology --- Musa --- Zea mays --- Sorghum --- Entomology --- Vigna unguiculata --- Busseola fusca --- Chilo partellus --- Cosmopolites sordidus --- Maruca vitrata --- Hirsutella thompsonii --- Beauveria bassiana --- Glossinidae --- Insect ecology --- Nairobi --- Icipe --- Pratylenchus goodeyi --- Tetrastichus sesamiae --- Nosema marucae --- Africa
Book
Year: 2021 Publisher: Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute
Abstract | Keywords | Export | Availability | Bookmark
Loading...Choose an application
- Reference Manager
- EndNote
- RefWorks (Direct export to RefWorks)
Soil fauna plays a key role in many soil functions, such as organic matter decomposition, humus formation, and nutrient release, modifying soil structure, and improving its fertility. Soil invertebrates play key roles in determining soil suitability for agricultural production and realizing sustainable farming systems. They include an enormous diversity of arthropods, nematodes, and earthworms. However, this fauna suffers from the impact of agricultural activities with implications for the capacity of soil to maintain its fertility and provide ecosystem services. Some agricultural practices may create crucial soil habitat changes, with consequences for invertebrate biodiversity. In the few last decades, especially under intensive and specialized farming systems, a loss in soil ecosystem services has been observed, as a result of the reduction in both the abundance and taxonomic diversity of soil faunal communities. On the other hand, agricultural practices, based on sustainable soil management, can promote useful soil fauna. Therefore, the concerns about the sensibility of soil biota to the agricultural practices make it urgent to develop sustainable management strategies, able to realize favorable microclimate and habitats, and reduce the soil disturbance.
soil biota --- invertebrates --- farming systems --- bioenergy --- biodiversity --- wheat --- ecosystem --- axonchium --- helicotylenchus --- tylenchorhynchus --- pratylenchus --- reniform --- vertosol --- gossypium --- Gossypium --- Zea mays --- vertisol --- Lumbricidae --- Aporrectodea caliginosa --- Aporrectodea rosea --- phosphorus fertilizers --- phosphorus-solubilizing microorganisms --- renewable resources --- heavy metals --- Luvisols --- ground-dwelling arthropods --- pitfall traps --- cover crops --- ecosystem services --- natural enemies --- pear pests --- biological control --- soil organic matter --- soil pH --- post-harvest residues --- crop rotation --- Hordeum vulgare L. --- Vicia faba L. ssp. minor --- soil biodiversity --- vineyard --- co-occurrence patterns --- soil moisture --- soil temperature --- vineyard management --- traditional management --- sustainable agriculture --- management intensity --- South Tyrol --- mountain agriculture --- soil --- soil properties --- macrofauna --- earthworms --- sustainability --- soil invertebrates --- bioindicators --- soil quality --- mesofauna --- soil degradation --- land management
Book
Year: 2021 Publisher: Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute
Abstract | Keywords | Export | Availability | Bookmark
Loading...Choose an application
- Reference Manager
- EndNote
- RefWorks (Direct export to RefWorks)
Soil fauna plays a key role in many soil functions, such as organic matter decomposition, humus formation, and nutrient release, modifying soil structure, and improving its fertility. Soil invertebrates play key roles in determining soil suitability for agricultural production and realizing sustainable farming systems. They include an enormous diversity of arthropods, nematodes, and earthworms. However, this fauna suffers from the impact of agricultural activities with implications for the capacity of soil to maintain its fertility and provide ecosystem services. Some agricultural practices may create crucial soil habitat changes, with consequences for invertebrate biodiversity. In the few last decades, especially under intensive and specialized farming systems, a loss in soil ecosystem services has been observed, as a result of the reduction in both the abundance and taxonomic diversity of soil faunal communities. On the other hand, agricultural practices, based on sustainable soil management, can promote useful soil fauna. Therefore, the concerns about the sensibility of soil biota to the agricultural practices make it urgent to develop sustainable management strategies, able to realize favorable microclimate and habitats, and reduce the soil disturbance.
Research & information: general --- soil biota --- invertebrates --- farming systems --- bioenergy --- biodiversity --- wheat --- ecosystem --- axonchium --- helicotylenchus --- tylenchorhynchus --- pratylenchus --- reniform --- vertosol --- gossypium --- Gossypium --- Zea mays --- vertisol --- Lumbricidae --- Aporrectodea caliginosa --- Aporrectodea rosea --- phosphorus fertilizers --- phosphorus-solubilizing microorganisms --- renewable resources --- heavy metals --- Luvisols --- ground-dwelling arthropods --- pitfall traps --- cover crops --- ecosystem services --- natural enemies --- pear pests --- biological control --- soil organic matter --- soil pH --- post-harvest residues --- crop rotation --- Hordeum vulgare L. --- Vicia faba L. ssp. minor --- soil biodiversity --- vineyard --- co-occurrence patterns --- soil moisture --- soil temperature --- vineyard management --- traditional management --- sustainable agriculture --- management intensity --- South Tyrol --- mountain agriculture --- soil --- soil properties --- macrofauna --- earthworms --- sustainability --- soil invertebrates --- bioindicators --- soil quality --- mesofauna --- soil degradation --- land management
| Listing 1 - 7 of 7 |
Sort by
|