The basis of cultivated lands consists of the interacting populations of annual and perennial weeds and updated annually cultural annual plants, which have very limited data on the aboveground net ...production, and even less information about the yield of their underground organs. The aim of the research is scientific and theoretical development of crops agriculture in Kuban region also with analysis of land systems and practical mistakes in the agriculture. The development of the agricultural system operation management systems provides a basis to solve the problems of environmental management, their protection, as well as ecological safety at the level of the cultivated land system formation through improving the soil, increasing the vegetation structure complexity, and including corresponding life forms in the vegetation composition. The results of study shows that management of cultivated lands is provided from the outside, where it takes place in a faster way, so it is more reasonable to organize agricultural ecosystems. Besides, the colloidity of wastes of different industries and their role in the formation of complex compost changes the aggregate composition of ordinary chernozem and impacts other aspects of the formation and development of soil and plants in the system of cultivated lands.
The formation of yield in two different combinations: vetch with wheat or oats, and the effect of vetch on yield potential of cereals has been investigated in Estonian field experiments over three ...years. We found that the inclusion of vetch seed in cereal seed and increase of its seed density led to considerable decrease in the yield of the cereal component (R=0.980-0.998). The adverse effect of vetch on cereal yield led to a reduction in wheat yield by up to 1861 kg ha
−1
on average for the three years, and in oats yield by up to 1413 kg ha
−1
. One reason for the decreases in cereal yields was the formation of smaller grains in cereals under increased vetch seed densities. As a three-year average, the wheat 1000-seed weight decreased by up to 6.3 g while the corresponding figure for oats under identical conditions was 2.5 g. The inclusion of vetch in a crop and the increase of its seed density led to a substantial increase in the protein content of cereal grains. In oats, the change in grain protein content was smaller. At the same time, the maximum protein yield per area unit in cereals was obtained from their monocultures. In a mix with vetch, the amounts of nitrogen consumed by cereals decreased and protein yield of cereals per area unit reduced at higher vetch seed densities. Vetch-cereal mixes had an advantage over cereal monocultures as far as protein yield was concerned. In vetch-wheat and vetch-oats mixes the maximum protein yield was 500 kg ha
−1
and 438 kg ha
−1
, respectively, on average for the three years. Of the two combinations, vetch-oats mixed crop gave the highest yield of grain, whereas the higher mixed crop yield resulted from the oats component. Oats is somewhat more competitive with vetch than wheat. Vetch-wheat mixed crop gave the highest protein yield because the protein content of wheat grains was higher than oat grains. Legume-cereal mixes are particularly suited for the conditions of organic farming as they ensure a relatively good harvest and a high protein yield.
The studies found that dissected pinnuled leaf type of peas is characterized by improved physiological indicators of the process of photosynthesis, by increased root mass, which produce more nodules ...with nitrogen-fixing bacteria. High activity of the antioxidant enzyme system of dissected pinnuled leaf plants in leaves and stipules shows a significant adaptive potential of the new form. However, the tendency of plants to lodging hinders the achievement of maximal yield. In this connection, as one of the solutions for this problem, it is proposed to grow dissected pinnuled leaf plants in mixture with almost lodging resistant variety Batrak. In coenosis of mixture of varieties light conditions improve, indicators of photosynthetic activity increase, seed yield increases. Optimal parameters of the components are defined. The profitability of cultivation of mixture of varieties is higher in comparison to monocropping.
An aged seed sample of a single oat landrace resulted in four plants when germinated. The plants differed from each other morphologically and genetically. They represented four grain types, three ...lemma colours, three avenin and three residual grain protein patterns and two molar ratios of C18:C16 fatty acids. These old oats grew high under current conditions and some also had yielding potential. Landraces with wide residual to avenin protein ratios would have been good sources in breeding food cereals for coeliac patients. Literature data since the 1700s indicate that Finnish oat landraces included morphological mixtures. Some were intentionally mixed. As also noted for Finnish barley landraces, oat landraces appear to have approached mixtures of genetically unique plants. Several reasons for the variation are presented. Active replacement of landraces (genetic polymorphism) with only a few pure-line cultivars was encouraged by authorities during the Mendelian period. Genetic variation was lost earliest in oats among Finnish cereal landraces. The proportion of oat landraces declined from 100% in 1902 to 34.4% in 1922 and to 0.2% in 1955. Genetic conservation did not occur in time, resulting from lack of foresight by authorities.
En Amazonie orientale, l’agriculture familiale contribue significativement à la transformation des écosystèmes forestiers en pâturages. La mise en valeur pastorale se fait généralement de manière ...monospécifique avec une Poacée pérenne d’origine africaine (Brachiaria brizantha cv. Marandu) qui constitue la principale offre fourragère. Mais les pratiques pastorales mises en oeuvre sur une exploitation conduisent souvent à une dégradation des pâturages, qui se manifeste par une prolifération des plantes adventices. Le pâturage a été modifié par l’introduction de deux Fabacées pérennes fourragères originaires d’Amérique Latine, l’une herbacée (Arachis pintoï cv. Amarelo) et l’autre ligneuse (Leucaena leucocephala). Pendant la saison sèche, nous avons étudié les interactions entre B. brizantha et des Fabacées fourragères implantées. Cette étude est la première approche intégrée (écophysiologie) qui étudie les caractéristiques adaptatives et les effets des Fabacées sur la capacité de résistance à la contrainte hydrique des pâturages à partir des évolutions des échanges gazeux foliaires, du potentiel hydrique et de l’état hydrique du sol. Le dispositif expérimental était composé de cinq parcelles de 100 m2 isolées du bétail correspondant à cinq traitements différents. Les trois espèces étudiées ont été cultivées seules et en association. Trois répétitions ont été réalisées pour chaque traitement afin de valider statistiquement les résultats et prendre en compte la variabilité spatiale du sol. En monoculture, les valeurs de conductances stomatiques de B. brizantha sont relativement élevées au regard des conditions climatiques par rapport à des valeurs habituelles de plantes C4 au champ alors que les valeurs d’assimilations nettes sont celles mesurées couramment. A. pintoï et L. leucocephala possèdent des valeurs de conductances stomatiques et d’assimilations mesurées habituellement sur les plantes C3 au champ. En situation de sécheresse, les trois espèces étudiées en monoculture adoptent un mouvement de fermeture stomatique 30 jours après l’arrêt des pluies et ajustent ainsi leur conductance sur l’épuisement de la réserve utile du sol. Cette stratégie permet le maintien de l’activité photosynthétique indispensable à la survie cellulaire et de maintenir une transpiration suffisante pour réguler leur température. Les trois espèces survivent par évitement de la sécheresse, en réduisant leur surface foliaire active et en fermant leurs stomates dès l’abaissement du potentiel hydrique. B. brizantha a le même comportement lorsqu’il est cultivé seul ou associé à A. pintoï que ce soit au niveau de la conductance stomatique, de l’assimilation de CO2 ou de l’efficience instantanée de l’eau. Cependant, son potentiel hydrique est affecté plus précocement au cours d’un stress hydrique lorsqu’il est en concurrence avec A. pintoï. Dans le cas de cette association, notre étude montre que la présence de B. brizantha a un effet négatif sur les activités photosynthétiques et donc sur la production de biomasse d’A. pintoï, espèce considérée pourtant comme sciaphile. Enfin, les fonctions métaboliques de B. brizantha sont réduites lorsqu’il est associé à L. leucocephala du fait de l’ombrage. L. leucocephala évite la sécheresse en réduisant sa surface foliaire. L’augmentation d’insolation en fin de saison sèche affaiblit cependant les plantes associées aux strates inférieures et réduit la quantité de fourrage disponible sur pied. Nous proposons aux agriculteurs de mettre en place une gestion durable de leurs pâturages par la création d’associations végétales fourragères adaptées aux contraintes biotiques et abiotiques.
In the Eastern Amazon region (Pará, Brazil), smallholder farming significantly contributes to the transformation of the Amazonian rain forest ecosystem into pasture land that typically includes a single species, generally a perennial fodder grass (Poaceae) originating from Africa (Brachiaria brizantha cv. Marandu). Such pastures rapidly lose their sustainability and get invaded by weeds. To prevent these effects, two imported perennial fodder species of the Fabaceae family (Arachis pintoï cv. Amarelo and Leucaena leucocephala Lam.) have been mixed with the African grass Brachiaria and the interrelations between B. brizantha and the Fabaceae species have been studied. In this unique ecophysiological study, plant parameters, such as gas exchange and plant water potential have been correlated with soil parameters, such as soil water content. The final goal was to assess the impact of the Fabaceae plants on pasture tolerance to water deficit. The experimental setting included five treatments applied to 100 m2 fenced plots to keep cattle away. Treatments corresponded to various combinations between the grass and the two Fabaceae species. Three biological repeats were set up for each treatment for statistical significance and in order to account for soil structure variability. In monospecific plots, B. brizantha exhibited stomatal conductance values higher than those expected from typical C4 species whereas net CO2 assimilation rates were normal. A. pintoï and L. leucocephala had usual stomatal conductance values for field-cultivated C3 plants. In response to drought, a general adjustment in stomatal conductance was observed 30 days into the dry season (i.e. without rain), suggesting that the plants limited transpiration rates according to the progressive decrease in soil water content. This strategy allowed them to maintain photosynthetic activities and to supply photosynthates to their tissues while limiting rises in temperatures. Upon exhaustion of soil water cotent, decreases in leaf water potentials were observed and plants escaped drought by reducing their leaf area and by abruptly closing their stomata. Brachiaria’s responses to drought were similar in mixed and monospecific plots regarding stomatal conductance, net CO2 assimilation rate or real-time water efficiency. However, when grown in mixed plots with A. pintoï, Brachiaria’s leaf water potential decreased rapidly after the onset of drought, due to the competition for water. In a A. pintoï ! Brachiaria plot, Brachiaria had a negative impact on A. pintoï photosynthetic activities and biomass production, even though the latter was considered as a shade plant species. On the other hand, Brachiaria metabolic activities were reduced in L. leucocephala ! Brachiaria combinations, due to the interception of light supply by L. leucocephala. L. leucocephala avoided water deficit by reducing leaf area. The resulting increase in light intensity reaching the lower strata, toward the end of the dry season weakened the shortest plants and limited fodder production. In conclusion, we propose that farmers implement pasture sustainability by developing crop mixing, using fodder species adapted to abiotic stresses. Furthermore, our results show that several crop combinations represent viable solutions to the perpetuation of new pastures. Each fodder species presents specific drought adaptation features. Combining them could be beneficial if pastoral pressure was allowed to develop according to the plants tolerance level. Improvements in fodder production and diversity could extend the life-span of smallholder settlements and as a result slow down deforestation
Quel avenir pour l'herbe dans les élevages bovins laitiers en régions de polyculture élevage ? Havet , Alain (INRA , Paris (France). UMR 1048 Sciences pour l'Action et le Développement : Activités, Produits, Territoires); Faure , Justine (INRA , Saint Gilles (France). UMR 1079 Systèmes d'Elevage, Nutrition Animale et Humaine); Martin , Philippe (INRA , Paris (France). UMR 1048 Sciences pour l'Action et le Développement : Activités, Produits, Territoires) ...
2010
Conference Proceeding