- What does the ‘closed herd’ really mean for Australian breeding companies and their customers? Australia has enough pig diversity to be going on with.
- Crossbreeding East African Highland Bananas: Lessons Learnt Relevant to the Botany of the Crop After 21 Years of Genetic Enhancement. Not completely sterile, but hardly very fertile either. Hard row to hoe.
- Are we eating the world’s megafauna to extinction? Yes.
- A systematic map of evidence on the contribution of forests to poverty alleviation. Always like a map.
- Turismo Rural y Conservación Ambiental: La Participación de la Mujer Campesina en la Reserva de la Biosfera los Tuxtlas, Veracruz, Mexico. It would be a good idea.
- Not even wrong: The spurious measurement of biodiversity’s effects on ecosystem functioning. Biodiversity likely not as important for ecosystem productivity as previously thought, because maths.
- Evolution of SSR diversity from wild types to U.S. advanced cultivars in the Andean and Mesoamerican domestications of common bean (Phaseolus vulgaris). Some base-broadening may be called for.
- Comparison of Methods to Distinguish Diploid and Tetraploid Potato in Applied Diploid Breeding. Count chloroplasts.
- Phenotyping Whole Forests Will Help to Track Genetic Performance. You heard.
- Signatures of positive selection in African Butana and Kenana dairy zebu cattle. Adapted to marginal environments, but with potential for higher milk production.
- How cultivating wild plants in botanic gardens can change their genetic and phenotypic status and what it means for their conservation value. In the end, it’s a numbers game.
- Genetic Resources of Capsicum. Could use more wild relatives, more.
- Vanilla bahiana, a contribution from the Atlantic Forest biodiversity for the production of vanilla: A proteomic approach through high-definition nanoLC/MS. But does it taste the same?
- Spontaneous hybridisation within Aegilops collection and biobanking of crop wild relatives (CWR). I guess that’s bad. But could it be useful?
Interesting that the use of chloroplast number to help determine ploidy level in potatoes has resurfaced in 2019. I used this method during my PhD research completed in 1975. I followed the methods of Rothacker et al. (1966) published in Eur. Potato J., and Frandsen (1968) in Theor. Appl. Genet.