Rooted Plantlet Production in a Vegetatively Reproductive Red Clover (\u3ci\u3eTrifolium pratense\u3c/i\u3e L.) cv. Astred

Vegetatively reproductive cultivars of red clover (Trifolium pratense L.) can produce clonal daughter plantlets under certain management and environmental conditions, which may improve sward persistency. Six trials involving spaced plants, pure swards or grazed mixed swards were conducted near Massey University, Palmerston North, New Zealand, from 1995 to 1998. Rooted plantlets counted in autumn of each year ranged from 5.8±1.6 to 43±5.1 rooted plantlets/parent plant for ungrazed spaced plants, and 0 to 1.8 rooted plantlets/parent plant for pure and mixed swards under grazing management. It is concluded that clonal, rooted plantlet production is highly variable in Astred depending on grazing management, environmental conditions and companion species, but offers a feasible replacement mechanism for maintaining red clover persistence in mixed and pure swards

Effects of Management Strategies on Seed Production and Seedling Recruitment in Birdsfoot Trefoil-White Clover Mixtures

The effects of grazing management on seed production, seed bank size and seedling emergence patterns of Trifolium repens cv. Zapicán (WC) and Lotus corniculatus cv. San Gabriel (BFT) oversown swards were evaluated. A complete randomized block design with 4 replicate blocks was used, in which 4 grazing strategies (grazing all year (SI), summer spelling for seed production (S2), winter rest plus summer spelling (S3) and autumn rest plus summer spelling (S4)), were combined with two defoliation severalties (4 and 10 cm height post-grazing residuals). Plots of 110 m2 were grazed monthly by sheep. Seed production, soil seed bank and seedling emergence were monitored from April 1998 to August 1999. In both species, summer spelling for seed production improved seed yield, especially in BFT. Severe defoliation (4 cm) reduced seed inputs drastically (46% in BFT and 64% in WC). 1000 seed weight was only affected by defoliation severity in WC (0.544 and 0.562 g for 4 and 10 cm height respectively). Potential seedling emergence, between June and December from soil seed bank, was 44 and 35% in BFT and WC, respectively. Seedling emergence of Lotus corniculatus increased under high seed production levels (S3), and also it was improved under intensive grazing during autumn and winter. There were no effects on Trifolium repens seedling emergence. Soil seed bank can preserve seedling recruitment rates in the short term, but maintenance of species balance will depend on seeding spelling management

Competition between \u3cem\u3eLolium perenne\u3c/em\u3e L. and \u3cem\u3eAgrostis capillaris\u3c/em\u3e L. Growing under Different Light Regimes as Response to Fertiliser Addition in a Degraded Pasture

At the field level plants can experience solar irradiance fluctuations caused by cloud cover or canopy shading. The majority of the research in this area has been done on forestry/pastoral systems using artificial structures so that the pasture has the desired light level (Peri et al. 2006). However, the effect of a change from high to low irradiance on the seasonal plant growth and production in a degraded pastoral system has not been previously studied, especially when fluctuating light regimes are involved. The aims of this study were to evaluate tillering dynamics of Lolium perenne L. (Lp) and Agrostis capillaris L. (Ac) in a degraded pasture under different intensities of fluctuating light regimes and also to evaluate the effect of fertiliser addition on plant growth under different levels of light

Water Footprint Differences of Producing Cultivars of Selected Crops in New Zealand

Water footprint (WF) is a measure of the amount of water used to produce goods and services. It is a very important concept on indicating how much water can be consumed to complete a process of growing or processing a product at a particular location. However, paucity of water footprint information in countries facing increased competition for water resources between industries limits market access and profit optimization. Water footprint differences of producing selected cultivars of potato, oca and pumpkin squash were determined under irrigation and rain-fed regimes. All crop husbandry practices were followed in potato, oca (3.3 plants m−2) and pumpkin squash (2.2 plants m−2). Water footprint was determined as the ratio of volume of evapotranspiration for irrigated and rain-fed crops plus grey water to total yield. The consumptive water use for the rain-fed crop was 75, 65 and 69% of the irrigated oca, potato and pumpkin squash, respectively, with high water consumption in heritage cultivars. The water footprint was low in pumpkin squash and highest in oca, while potato cultivars were intermediate. Irrigation reduced water footprint especially in crops more responsive to irrigation. Farmers should focus on improving the harvest index and irrigation to reduce water footprint

Relationship between Canopy Closure and Pasture Production in Deciduous Tree Based Temperate Silvopastoral Systems

Experiments were carried out in New Zealand with 11 year-old alder (Alnus chordata) on lowland pasture, and with 30+ year-old poplar (Populus spp) on hill pasture. Alder tree shade decreased (P\u3c 0.001) tiller density and total herbage harvested, with the highest tiller density at the lowest shade level of 41% canopy closure (DifN 0.59). Net herbage accumulation (NHA) directly under a poplar canopy was 35% of the NHA of open pasture, but NHA in canopy gaps increased with gap size. These results suggested that keeping canopy closure percentage in the 40-50% range for a deciduous tree silvopastoral system, would maintain pasture production and tiller density at approximately two-thirds of that of unshaded pasture

Plantain (\u3cem\u3ePlantago lanceolata\u3c/em\u3e) Outperforms Chicory (\u3cem\u3eCichorium intybus\u3c/em\u3e) under Moisture Stress in Glasshouse

Forage chicory (Cichorium intybus) and plantain (Plantago lanceolata) are now widely used throughout the world as high feed quality perennial herbage (Sanderson et al. 2003; Labreveux et al. 2006; Li et al. 2010; Golding et al. 2011; Hutton et al. 2011). Both are taprooted plants and are thus likely to confer a degree of drought tolerance through accessing water deeper in the soil profile (Kemp et al. 2010). Nie et al. (2008) reported chicory can tolerate moisture stress to a greater degree than plantain. However, overall little is known about the effect of moisture stress on plantain and chicory persistence under defoliated conditions. The objective was to compare plantain and chicory un-der moisture stress and defoliation under glasshouse conditions

Plantain (\u3cem\u3ePlantago lanceolata\u3c/em\u3e) in Herb and Legume Pastures Increases Lamb Growth Relative to Perennial Ryegrass and White Clover Pasture

Increased use of plantain (Plantago lanceolata) by New Zealand farmers has created a demand for a more complete understanding of the performance and manage-ment of plantain by itself and in various combinations with chicory (Cichorium intybus) and legumes such as white clover (Trifolium repens) and red clover (T. pratense). The objective of this study was to evaluate lamb finishing on plantain by itself and combined with chicory, white and red clover as part of a research programme to develop a temperate perennial pasture superior in animal performance to perennial ryegrass and white clover pasture for sheep production systems (Kemp et al. 2010)