The rise of novelty in ecosystems.

Rapid and ongoing change creates novelty in ecosystems everywhere, both when comparing contemporary systems to their historical baselines, and predicted future systems to the present. However, the level of novelty varies greatly among places. Here we propose a formal and quantifiable definition of abiotic and biotic novelty in ecosystems, map abiotic novelty globally, and discuss the implications of novelty for the science of ecology and for biodiversity conservation. We define novelty as the degree of dissimilarity of a system, measured in one or more dimensions relative to a reference baseline, usually defined as either the present or a time window in the past. In this conceptualization, novelty varies in degree, it is multidimensional, can be measured, and requires a temporal and spatial reference. This definition moves beyond prior categorical definitions of novel ecosystems, and does not include human agency, self-perpetuation, or irreversibility as criteria. Our global assessment of novelty was based on abiotic factors (temperature, precipitation, and nitrogen deposition) plus human population, and shows that there are already large areas with high novelty today relative to the early 20th century, and that there will even be more such areas by 2050. Interestingly, the places that are most novel are often not the places where absolute changes are largest; highlighting that novelty is inherently different from change. For the ecological sciences, highly novel ecosystems present new opportunities to test ecological theories, but also challenge the predictive ability of ecological models and their validation. For biodiversity conservation, increasing novelty presents some opportunities, but largely challenges. Conservation action is necessary along the entire continuum of novelty, by redoubling efforts to protect areas where novelty is low, identifying conservation opportunities where novelty is high, developing flexible yet strong regulations and policies, and establishing long-term experiments to test management approaches. Meeting the challenge of novelty will require advances in the science of ecology, and new and creative. conservation approaches.

Gasterópodos asociados al alga calcárea Halimeda opuntia (Udoteaceae) en Puerto Rico

Gastropods associated with the calcareous alga Halimeda opuntia (Udoteaceae) in Puerto Rico. Gastropod communities associated with the calcareous green alga Halimeda opuntia are described and compared for two Puerto Rico coral reefs: one in the northeast with front tradewinds (windward zone) and one in the southwest (leeward zone). We analyzed the content of 21 lots (2432 g) of H. opuntia from leeward zone and 15 lots (2448 g) from the windward zone. In total we recovered 526 gastropods (prosobranchs) classified in 54 taxa. Thirteen species of gastropods represented 79.6% of the community. Differences between species richness and mean density values were not significant (p>0.100). Forty species were identified from leeward and thirty one (31) species from windward. Gastropod mean density was 13.9 /100g of algae in leeward and 7.6/100g in windward. Significant differences were found for the Simpson Diversity Index (0.91 in the leeward and 0.82 in the windward community; t=3.44, α=0.005). We found no correlation between the weight of the algae and the frequency of the gastropods (R²=0.0893 in leeward, 0.0249 windward and 0.0923 for both). The relationship between species composition in lots of windward and leeward study sites was explored via polar ordination and no segregation was found. When compared, the gastropod communities found in H. opuntia collected in coral reefs in Puerto Rico were more similar within them than any other communities found in other genera of seaweed and in other environments. Our results agree with the hypothesis that H. opuntia offers the interstitial community a protected microhabitat from water movement impact. H. opuntia creates more homogenous conditions than those of the habitat where we found the algae. Rev. Biol. Trop. 56 (4): 1665-1675. Epub 2008 December 12.

Se describen y comparan las comunidades de gasterópodos asociados al alga verde calcárea H. opuntia. Se compararon estas comunidades en arrecifes coralinos de lugares geográfica y ambientalmente diferentes, uno en el noreste de Puerto Rico, frente a los vientos alisios (barlovento), el otro en el suroeste (sotavento). Se analizó el contenido de 15 lotes (2432 g) de H. opuntia recolectadas en la estación de sotavento y 21 lotes (2448 g) en la de barlovento. En los 36 lotes se recuperaron 526 gasterópodos (prosobranquios) que se clasificaron en 54 taxones. Trece especies de gasterópodos representaron el 79.6% de la muestra de la comunidad. No encontramos diferencias significativas en las densidades de gasterópodos ni en la riqueza de especies (p>0.100). La densidad promedio fue de 13.9/100 g alga en la estación de sotavento y 7.6/100 g en la de barlovento. Se identificaron 40 especies diferentes en las muestras de sotavento y 31 en las de barlovento. Solamente se encontraron diferencias significativas en los valores de diversidad (Simpson), de 0.91 para la comunidad de sotavento y de 0.82 en la de barlovento (t = 3.44, α = 0.05). No encontramos correlaciσn entre el peso de la muestra del alga y la frecuencia de gasterσpodos en ésta, R² = 0.0893 para sotavento, 0.0249 para barlovento y 0.0923 para datos combinados. Utilizando los métodos de ordenación polar se comprueba la similitud de las dos comunidades estudiadas. Estos resultados sostienen la hipótesis de que H. opuntia le ofrece a los organismos que viven en sus intersticios un microhábitat protegido del impacto del movimiento del agua, creando condiciones más homogéneas que las del hábitat donde encontramos creciendo el alga.

[Gastropods associated with the calcareous alga Halimeda opuntia (Udoteaceae) in Puerto Rico]. / Gasterópodos asociados al alga calcárea Halimeda opuntia (Udoteaceae) en Puerto Rico.

Gastropod communities associated with the calcareous green alga Halimeda opuntia are described and compared for two Puerto Rico coral reefs: one in the northeast with front tradewinds (windward zone) and one in the southwest (leeward zone). We analyzed the content of 21 lots (2432 g) of H. opuntia from leeward zone and 15 lots (2448 g) from the windward zone. In total we recovered 526 gastropods (prosobranchs) classified in 54 taxa. Thirteen species of gastropods represented 79.6% of the community. Differences between species richness and mean density values were not significant (p > 0.100). Forty species were identified from leeward and thirty one (31) species from windward. Gastropod mean density was 13.9/100 g of algae in leeward and 7.6/100 g in windward. Significant differences were found for the Simpson Diversity Index (0.91 in the leeward and 0.82 in the windward community; t = 3.44, alpha = 0.005). We found no correlation between the weight of the algae and the frequency of the gastropods (R2 = 0.0893 in leeward, 0.0249 windward and 0.0923 for both). The relationship between species composition in lots of windward and leeward study sites was explored via polar ordination and no segregation was found. When compared, the gastropod communities found in H. opuntia collected in coral reefs in Puerto Rico were more similar within them than any other communities found in other genera of seaweed and in other environments. Our results agree with the hypothesis that H. opuntia offers the interstitial community a protected microhabitat from water movement impact. H. opuntia creates more homogenous conditions than those of the habitat where we found the algae.