Structural Changes are More Important than Compositional Changes in Driving Biomass Loss in Ugandan Forest Fragments

Aboveground biomass (AGB) contained in privately-owned forests is less frequently measured than in forest reserves despite their greater likelihood of degradation. We demonstrate how density changes in contrast to species compositional changes have driven AGB changes in privately-owned fragments in Uganda over two decades. Data on tree assemblages in fragments were obtained by re-sampling a 1990 dataset in 2010 and AGB estimated using generalised allometric equation that incorporates diameter at breast height (DBH) and species-specific wood density. AGB were highly variable between fragments and over time. Structural changes contributed a higher proportion of change in AGB than species compositional changes in all forests. Non-pioneer species constituted over 50% of AGB in reserve forest, in contrast to private forests where pioneer species dominated. Our study demonstrates the potential of private forests to hold comparable AGB to plantation. Reduction in exploitation pressure is required if fragments are to mitigate carbon emissions

Registration of ‘Serenut 5R’ Groundnut

‘Serenut 5R’ (Reg. No. CV-129, PI 676092) is a new high-yielding, spanish-type groundnut (Arachis hypogaea L. subsp. fastigiata var. vulgaris) with two seeds per pod. Serenut 5R was released in 2010 by the National Semi-Arid Resources Research Institute, Soroti, Uganda. It was a selection from the ICRISAT advanced line ICGV-SM 93535. Serenut 5R originated from a cross made between ICGM 522 and ‘RG 1’. ICGV-SM 93535 was developed by using repeated bulk selections for groundnut rosette disease resistance, using the infector row technique at the ICRISAT-Malawi research station. Performance tests in replicated trials were performed in Uganda in 2008 and 2009. Trials were performed in two seasons each year and averaged over 10 rainfed locations in Uganda. Serenut 5R matures in 100 to 110 d, similar to the widely grown control cultivar Serenut 3R. Serenut 5R resulted in significantly higher pod yields (16%) than Serenut 3R, and the shellout percentage for Serenut 5R was 4.8% higher than Serenut 3R. Seed testa is red, and the seeds are slightly larger than those of Serenut 3R. The sound mature kernel count for Serenut 5R was 38.7 g 100−1 compared with 32.38 g 100−1 for Serenut 3R, an increase of 19.51%. The dormancy period for Serenut 5R was significantly less than Serenut 3R

Registration of ICG 12991 peanut germplasm line

ICG 12991 is a short duration (90–110 d to maturation), drought-tolerant, spanish-type peanut (Arachis hypogaea L. subsp. fastigiata Waldron var. vulgaris Harz.) germplasm line (Reg. no. GP-122, PI 639691) with a high level of field resistance to groundnut rosette disease (Naidu et al., 1999a; Subrahmanyam et al., 2000). Groundnut rosette disease results from a synergism of three agents: Groundnut rosette assistor virus (GRAV, a luteovirus), Groundnut rosette virus (GRV, an umbravirus), and a satellite RNA (sat RNA) of GRV. ICG 12991 was originally collected from a farmer’s field in south India in 1988. In 1994, ICRISAT introduced ICG 12991 into Malawi for evaluation during a germplasm screening program for resistance to groundnut rosette disease and early leaf spot disease (caused by Cercospora arachidicola S. Hori). Subsequently, ICG 12991 was released in Malawi as ‘Baka’ in 2001 and in Uganda as ‘Serenut 4T’ in 2002, following extensive testing and distribution by the national programs of each country. Resistance to groundnut rosette disease in ICG 12991 is due to aphid resistance, not due to resistance to the virus complex (Naidu et al., 1999b)

Registration of groundnut cultivar ICGV-SM 90704 with resistance to groundnut rosette

ICGV-SM 90704 is a high-yielding medium-duration groundnut germplasm developed at ICRISAT, Lilongwe, Malawi. It was derived from a cross between varieties RG1 and Mani Pintar, made in 1983. It was released in Uganda in 1999 as Serenut 2 and in Malawi in 2000 as ICGV-SM 90704. ICGV-Sm 90704 is resistant to groundnut rosette virus (GRV) but susceptible to aphid vector (Aphis craccivora) for GRV transmission. The yield performance, plant and seed characters of ICGV-SM 90704 are briefly described